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bromosorganics · 27 days ago

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Leading Bromine Compound Supplier in India – Bromos Organics

In the rapidly evolving chemical industry, few names resonate with the level of precision, quality, and reliability as Bromos Organics. With a laser focus on producing high-purity brominated compounds, Bromos Organics has established itself as one of the leading Bromine Derivatives Manufacturers India. Our company stands at the intersection of innovation and responsibility, serving both domestic and global markets with customized solutions.

Who We Are: A Trusted Name in Bromine Chemistry

At Bromos Organics, our mission is to deliver performance-driven chemical products that meet the stringent demands of industries such as pharmaceuticals, agrochemicals, dyes, and specialty chemicals. We specialize in synthesizing organic intermediates that involve bromination—a highly specialized chemical reaction requiring expertise, precision equipment, and strict quality control.

Our team of skilled chemists, engineers, and quality assurance professionals ensures that every compound we manufacture meets international standards and complies with environmental safety regulations.

Our Core Products and Services

As a dedicated manufacturer of bromine derivatives, our product portfolio includes:

Alkyl Bromides

Aryl Bromides

Heterocyclic Bromine Compounds

Customized Brominated Intermediates

These derivatives are essential for applications in pharmaceuticals (as active pharmaceutical ingredients or intermediates), crop protection formulations, flame retardants, and more.

Our R&D facility plays a vital role in supporting custom synthesis and contract manufacturing, making Bromos Organics a one-stop solution provider for clients seeking specialized brominated chemicals.

Infrastructure and Quality Assurance

One of the major strengths of Bromos Organics lies in our state-of-the-art production facility, designed to handle complex reactions with efficiency and safety. Equipped with glass-lined and stainless steel reactors, high-vacuum distillation units, and advanced analytical labs, our infrastructure supports both small-batch and bulk manufacturing.

Our commitment to quality is reinforced through:

In-house quality testing laboratories

GMP-compliant processes

Strict adherence to ISO quality standards

Batch-to-batch consistency

Environmentally responsible waste management systems

We ensure every product leaving our facility is accurate in composition, safe to use, and meets client expectations.

Sustainability and Regulatory Compliance

Environmental sustainability is integral to our operations. Bromos Organics follows eco-friendly production methods that minimize emissions and waste generation. Our waste treatment systems are aligned with regulatory guidelines, and we invest in continuous improvement to reduce our carbon footprint.

In addition to complying with national regulations, our exports are backed by the necessary certifications and documentation to meet global quality and safety standards. Clients can rely on our transparency and traceability across every stage of production.

Why Choose Bromos Organics?

Choosing the right partner in chemical manufacturing is crucial for any industry dealing with sensitive and high-stakes products. Here's why businesses across India and abroad trust Bromos Organics:

Specialization in Bromine Chemistry: Decades of experience with a single focus—brominated compounds.

Customization Capability: We tailor solutions as per client specifications.

Timely Deliveries: Strong supply chain and logistic partnerships ensure quick, reliable distribution.

Global Reach: Supplying to customers in multiple countries with export-ready documentation.

Ethical Business Practices: Transparent dealings, commitment to safety, and customer-first mindset.

Applications Across Industries

The demand for bromine derivatives continues to grow across sectors such as:

Pharmaceuticals: For APIs and key intermediates

Agrochemicals: In the formulation of pesticides and herbicides

Dye Manufacturing: Providing stability and reactivity in colorants

Flame Retardants: Essential for electronics and safety materials

Specialty Chemicals: Used in fine chemical synthesis and niche applications

Bromos Organics serves all these sectors by offering reliable, scalable, and high-quality chemical solutions.

Conclusion

When it comes to finding trusted Bromine Derivatives Manufacturers India, Bromos Organics remains a top choice for companies looking for integrity, precision, and partnership. With a commitment to sustainable manufacturing, cutting-edge R&D, and industry-leading expertise, we continue to set benchmarks in brominated compound production.

Partner with us for your bromine derivative needs and experience the excellence that defines every product we deliver.

#BromineDerivativesManufacturersIndia #BromineDerivativesManufacturersNorthernIndia #HYDROBROMICACID48%

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wellnesstribe · 3 months ago

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Glass Reactor Market Growth Challenges Impact Innovation, Investment, and Regional Expansion in Developing Industrial Sectors

Glass reactors are widely used in chemical, pharmaceutical, and biochemical industries for their transparency, corrosion resistance, and ease of monitoring reactions. While the global glass reactor market continues to grow due to increasing demand for advanced lab equipment and chemical processing solutions, it also faces several significant challenges that could potentially hinder its development. Understanding these obstacles is crucial for manufacturers, suppliers, and investors to strategize effectively and ensure sustainable growth.

1. High Initial Investment and Operating Costs

One of the primary challenges in the glass reactor market is the high cost of manufacturing and maintenance. Borosilicate glass, commonly used in reactors, is expensive to produce and shape, especially for large-scale industrial applications. Additionally, the supporting hardware, safety mechanisms, and specialized installation increase overall operational expenses. For small and medium enterprises (SMEs), the high entry cost often acts as a barrier to adoption.

2. Fragility and Risk of Breakage

Despite being durable against thermal and chemical reactions, glass reactors are still prone to physical damage. Their fragility makes them less suitable for rough handling or high-impact environments, unlike their stainless steel counterparts. The fear of accidental breakage deters many industries, especially those handling large-scale or heavy-duty operations, from fully transitioning to glass-based systems.

3. Complex Supply Chain and Raw Material Dependency

The glass reactor industry relies heavily on specific raw materials such as high-grade borosilicate and specialized seals and valves. These materials often have limited sources and are subject to global supply chain disruptions. Geopolitical tensions, trade restrictions, and fluctuations in raw material prices can directly affect production timelines and costs, creating uncertainty in the market.

4. Limited Application in High-Pressure Environments

Glass reactors, by their very nature, are not ideal for processes that require very high pressure. While advances in design have improved their pressure tolerance, they are still unsuitable for certain chemical or pharmaceutical processes that demand extreme operating conditions. This limitation confines the market potential within specific segments, hindering universal applicability.

5. Lack of Awareness in Emerging Economies

In many emerging markets, awareness about the advantages and capabilities of glass reactors is still low. Traditional equipment continues to dominate due to its familiarity, lower cost, and perceived durability. This lack of market education, coupled with insufficient technical expertise, restricts market penetration in regions like Africa, parts of Southeast Asia, and Latin America.

6. Stringent Regulatory and Safety Standards

Glass reactors must meet rigorous safety and regulatory standards due to the sensitive nature of their applications. These regulations vary by country, requiring manufacturers to adapt products to different compliance frameworks, often increasing production costs and time-to-market. Non-compliance can lead to heavy penalties, product recalls, or outright bans, especially in pharmaceuticals and biotech industries.

7. Technological Competition from Alternative Materials

Alternative materials like stainless steel, polymer-lined vessels, and hybrid reactors offer tough competition to glass systems. These alternatives often provide better durability, pressure handling, and cost-effectiveness in certain applications. Technological advancements in these areas continue to put pressure on glass reactor manufacturers to innovate and justify their relevance.

Conclusion

The global glass reactor market holds promising growth potential, especially with rising demands in pharmaceuticals, chemical processing, and academic research. However, the path to expansion is riddled with challenges—ranging from economic constraints and material fragility to regulatory complexity and limited awareness. Addressing these issues through innovation, strategic partnerships, and targeted education campaigns will be key to overcoming growth barriers and establishing long-term market resilience.

#Glass Reactor Market

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sciencelabsupply · 1 year ago

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Tips for Optimizing Efficiency in Your Chemical Engineering Lab with the Right Equipment

Chemical engineering is that branch of engineering that touches the lives of all of us. They are the engineering wizards that turn raw materials into useful and valuable products. With the principles of chemistry, math, and physics and the aid of equipment by top chemistry engineering lab equipment manufacturers, they design processes and equipment for making things like chemicals, medicines, fuels, and even food on a large scale.

Chemical engineers figure out how to do it efficiently, safely, and economically. They're like the chefs of the industrial world, creating the instructions for making stuff in factories. Chemical engineering lab equipment manufacturers are proud to be collaborators with chemical engineers worldwide. They are on board as the official chemical engineering lab equipment manufacturers and suppliers to the topmost chemical engineering companies in the world.

Tips for Optimizing Efficiency By Chemical Engineering Lab Equipment Suppliers

Optimizing efficiency in a chemical engineering lab relies on several key factors, including having the right equipment from the best chemical engineering lab equipment manufacturer and employing effective practices. Here are some tips for achieving greater efficiency, along with suitable examples:

Material Compatibility:

Consider the materials you'll be working with and ensure that the equipment is compatible with those substances. Carefully assess the materials that will come into contact with the equipment. Ensure it can handle the corrosiveness, reactivity, and potential chemical interactions with your substances. Consult material compatibility charts and guidelines for reference provided along with the chemical engineering lab equipment list.

Example: When working with highly corrosive chemicals, choose equipment made from corrosion-resistant materials such as PTFE (Teflon), stainless steel, or glass-lined reactors. For handling reactive substances, consider specialized reactors like Hastelloy reactors, designed for chemical resistance.

Harness The Power Of Automation:

Whenever possible, leverage automation and computer-controlled systems to increase precision and reduce human error. Check with chemical engineering lab equipment manufacturers and suppliers of the latest automated equipment that shall significantly enhance efficiency. Here's how automation achieves this:

Precision and Consistency

24/7 Operation

Reduced Human Error

Accurate and real-time data acquisition

Parallel Processing

Task Integration within a single system

Remote Monitoring and Control

Better safety standards with handling of hazardous or toxic materials without direct human contact

Workflow Efficiency

Resource Optimization

Instrument Integration:

Mostly, chemical engineers plan to use multiple instruments in sync. Ensure to source equipment from experienced chemical engineering lab equipment suppliers that are compatible and integrate seamlessly with automated processes.

Example: Gas chromatography-mass spectrometry (GC-MS) systems combine the separation capabilities of GC with mass spectrometry for compound identification. These integrated systems streamline chemical analysis.

Optimizing Energy Use

Modern Chemical engineering labs must strategize and take practical steps to reduce energy consumption while maintaining or improving productivity. Some of these practices are:

Invest in energy-efficient lab equipment and instrumentation, such as energy-efficient refrigeration systems, ovens, and pumps.

Ensure that lab equipment is correctly sized, as it reduces energy waste.

Use smart controls and sensors to implement heating, ventilation, and air conditioning (HVAC) systems with controls and sensors.

LED lighting for less consumption of electricity.

Use automated timers that turn off lighting, fume hoods, and equipment during non-operational hours or when not in use.

It is a great thing to practice periodic energy audits to identify areas of energy inefficiency within the lab.

Avoid energy wastage by optimizing temperature and pressure.

Implement energy management systems for real-time monitoring and control of lab equipment.

Every step must be taken to lower the carbon footprint, and partial reliance on clean energy is the best and proven step for it.

Design or revamp chemical engineering labs with Energy-Efficient Lab Design

Regulatory Compliance & Supplier Reputation

Undoubtedly, chemical engineering labs witness the use of chemical engineering lab equipment at all times. Thus, it is one of the labs where there can be no quality compromise of the equipment. Chemical engineers can optimize the efficiency of their lab operation by selecting equipment that complies with relevant industry regulations and safety standards. With the leading chemical engineering lab equipment suppliers comes the guarantee of certifications and approvals that validate the equipment's suitability for use in the chemical engineering lab.

With chemical engineering lab equipment suppliers and exporters, every aspect of lab equipment comes verified. They have a proven track record of providing equipment that is certified to meet safety and regulatory standards, ensuring compliance.

Setting Up Of Safety Enclosures

These enclosures protect both operators and the surrounding environment during experiments involving hazardous materials or reactions. The following measures are effective steps for lab operations in chemical engineering labs:

Set-up safety enclosures provide a physical barrier between these hazardous materials and laboratory personnel.

Ensure these enclosures have built-in trays, catchment systems, or containment chambers. They help to capture and safely manage any spills, preventing them from spreading into the lab environment.

Check with chemical engineering lab equipment suppliers to install fume hoods. They ensure that the lab air remains clean and safe to breathe.

The Safety enclosures must have transparent windows or panels that allow engineers to observe and manipulate experiments without direct contact with the chemicals.

Safety enclosures, like glove boxes and isolation chambers, must be sourced from top chemical engineering lab equipment manufacturers. They are essential when working with air-sensitive or moisture-sensitive materials.

Provision of emergency shut-off systems for quick deactivation of equipment or experiments in case of emergencies or unexpected events.

Safety enclosures are designed and manufactured to meet strict safety standards and regulations. Using compliant enclosures ensures that the lab adheres to safety guidelines and protocols, which is essential for both research integrity and personnel safety.

Safety enclosures by chemical engineering lab equipment suppliers come in various configurations to accommodate different experimental requirements. Share your lab requirements with them, and the experts will install safety enclosures that sync absolutely with your lab goals.

Many more tips by chemical engineering lab equipment suppliers can help you make informed decisions when selecting equipment for your chemical engineering lab. Following these tips ensures that your choices align with your research goals and contribute to the overall efficiency and productivity of your laboratory operations.

#Chemical Engineering Lab Equipment Manufacturer #Chemical Engineering Lab Equipment suppliers

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supero1726-mcu · 5 years ago

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Avengers in Lockdown

Avengers in Lockdown was one of my first fanfictions, and it (unsurprisingly) follows Tony, Peter and the gang. I really enjoyed writing this, and hope you enjoy this as much as me!

Prologue

Peter Parker lent back in his chair and watched as his Spanish teacher droned on about something he should be listening to. Leaning down, he grabbed his half-bitten biro from the corner of his desk and scribbled a new formula in the corner of his notebook. Finally, his spurt of inspiration died, and he was reduced to doodling a small spider in the corner of his book, which muddled into MJ. Everything seemed to muddle into MJ nowadays, be it his formulas or his lab session with Tony. Sometimes he couldn’t tell if she liked him, knew if he was Spider-Man or both. It was MJ, she was always unpredictable. Looking up, he found his teacher leaning over his desk with a threatening expression on his face. “Mr Parker, what have I told you about…” he was saved by the crackling of Tannoy and a stern voiced Principal Morita. He had been wondering when this would come, the news had been full of it. May had been worried that Ellis would bring this in – and that the WHO would start to ask the US to join the regulations that had been implemented across the globe. Of course the new Ross, who was still standing staunchly in Tony’s way of everything possible, was in the process of ignoring everything he said, especially about the possibility of a vaccine being created by him and Bruce (with a little help from Peter of course!), and had decided to plough ahead. So, it was really no surprise when Morita had said that Ellis was to give a briefing at 5, and that they were all welcome to stay and watch with their friends, after all, it might be the last time. The briefings had been going for a while, but they had all had the feeling that there was going to be the last normal day for a while, and so he grabbed his phone to say that he was staying.

Pepper stormed out of the meeting, eyes firmly on the door to her office. If one more person tried to catch her and ask her about something she had no idea about, she was going to scream. The board wanted to know about PPE, Tony wanted to know what Ellis was saying about a vaccine, Ellis wanted to know what Tony was doing about a vaccine. Added to the fact the constantly had to deal with incessant Avengers business when her Fiancé messed up, it was all a bit too much. Shutting the door behind her and leaning on the table, she picked up a pile of papers asking what she was going to do if they were put in lockdown. Sometimes she wondered about all of this. When she had first started being the CEO of a trans-national company it had been electrifying, once she had got over the fact it was not one of Tony’s jokes, but she was approaching her 50’s, and she had no time left, and with Tony being Tony… things could go anywhere. The pressure was getting to her. The press where picking up on their every move, guessing on the destination, the dress, best man, flower girl… anything that could be predicted by means of sheer will and brute force. She was used to having no private life, but since she announced her engagement, she had not been left alone. Grabbing a receiver, she muttered for some poor assistant to take the meeting, she was done.

Ellis sat on his chair, surveying the rows of press sitting in 2m distance and watching as he took a sip from a glass of water. The press clicked a feverishly with cameras and notebooks, some clutched laptops. “Hello. We have come to the point in time where there are two options, two sides to the same, I admit frightening coin. With tangible threats, the Avengers can field it with ease, they are recruiting new members, and we do have an army. However, this is a war with something that has no body, nothing that we can punch or watch as it crumbles under a wave of gunfire. This is no war for an army, this is a war for science. We have advanced scientists; Dr Banner is a notable example of one that is involved with both the physical and scientific battles, but even the great Dr Banner does not have a miracle vaccine, although I am assured by both him and Stark that they have a team on both a vaccine and manufacture of PPE.” He stops and looks out into the audience; someone clears their throat and most of the auditorium turn to stare at the poor man. “This,” He states with an ashen face and red rimmed eyes. “is a war, and so we will have to treat it as such. Our weapons are the PPE, our help is to stay home. As such I am recommending that all governors suspend schools indefinitely starting on Friday. We will issue guidelines on whom is considered essential, and who needs to work from home. Ladies and Gentlemen.” He stares at the camera, watching as the lens focuses in on him. “This is the single defining moment of our generation. I will endeavour to ensure the safety of our nation. That will be all. I will not be answering questions.” He stalked behind the curtain, hoping the press hadn’t noticed his trembling hand.

Peter was not patrolling anymore. He had agreed to stop since the evidence suggested that, even if he was immune, he could still be a carrier. So now he spent his nights learning how to cook, playing board games and chatting to Ned over the phone. He almost wished he had a little more time like this, where he felt he had a life outside of school and swinging round New York. He was half expecting May to be at the door waiting for him, but she was at the table, clutching her phone. “Honey…” “What is it.” Peter looked worriedly into her eyes, not catching the glint that had been a solitary tear running down her face. “I’ve been classified Essential.” “Well then… why are you crying.” “Sweetie, I don’t want you in the house with me. I’m going to be around people who are at risk of being infected, or worse. Pete. I can’t let you stay here. I morally can’t do it. Call him.” “What.” Peter caught May’s eye. “Who.” “Call Tony. Please Pete. I can’t do it. You have somewhere safe to go, someone safe to be with, and I can’t watch you. We’ll call and chat and face time, but if I came home and got you sick…” “I can’t get…” “We don’t know that.” She was crying now, tears streaming down her cheeks. “I want this to be over. Call him.” So, Peter Parker walked to the sofa where he had put his phone and pressed the button for Tony Stark on his interface. He would never answer, but sure as luck would have it, Tony’s voice rang sure and clear down the line. “Hey Kiddo. What do you need?”

Tony Stark was having a shitty day. On Cho and Bruce’s orders he had suspended being Iron Man for the time being, and due to him still having problems where the ARC reactor was extracted, ha was now tower locked. He had told the public to do their bit, he had told Steve Rogers to “fuck off.”. Steve was immune to most things, being a super soldier and all. Since he had pardoned the rogues and brought back the tower after the disastrous incident with the vulture, he had let them stay, equipped with everything he could provide. And they were happy in a sense, no mass fighting breaking out, no notable divides, and then Steve bought Bucky back… and everything changed. Tony knew that it hadn’t been Bucky that killed his parents but there was something in him that hated the thought of housing his mother’s murderer, whether conscious or not. His wrench clattered to the ground, and he surveyed his handy work. DUM-E was now sporting a stronger, more durable arm, and a new fire extinguisher. He was going soft and when Friday’s voice rang “Call from Peter Parker.”, he snatched it up.

Sam had long wanted to learn the guitar, and now him and Clint were sitting back to back, each clutching identical acoustic guitars. It was one thing to be a bad guitarist at home alone, but now they were in quarantine, and now everyone in the tower and surrounding area could hear him and Clint strumming clumsily. Bucky leaned against the door, a shit-eating grin on his face. “I was lured up here by the sounds of Sam in pain.” Crossing the room, he deftly snatched a pluck out of Sam’s clumsy fingers, walking out of the room. “Hey, maybe a break will do you good.”

Dinner at the tower was seldom easy. For one thing, living with more than 6 people in the same house at once made them more than flatmates, it made them almost family. For another they all wanted different things, and the select cooks could only rustle up a few dishes, which meant a lot of bewildered Pizza and Indian vans drawing up at Stark Tower at least once a day. The only competent chefs in the building had quickly turned out to be Steve, Bucky and Tony (who as we all know can make good pasta!), with both Nat and Clint setting fire to the Stove, and scaring the life out of someone who had taken Clint’s space in the vents. Tonight, sitting at the long table was Steve, Sam, Clint, Wanda, Bucky and Nat. There was no sign of Tony; who had been seen practically running to one of his discreet cars not an hour earlier, Pepper, who rarely had time to spare, Bruce had been in the lab on a bender with the vaccine issue, Scott and Hope were away, and Thor was ‘off world’ – whatever that meant. “Miss me.” Steve turned to the door, and saw a dishevelled looking Tony standing there, clutching a battered suitcase and an impossibly wide smile. “Why are you so late?” “Had some things to pick up.” “What do you mean.” A boy stepped out behind him. He couldn’t have been than 16, in fact he looked younger, but he bore a small resemblance to Tony, with wide intelligent eyes, and hands that seemed to be fiddling with something. “Avengers meet Peter… again. Peter meet the Avengers.” “Hi.” Sam stared at him, taking in his proportions. “Hello Spider-kid.” Said Nat.

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slothgiirl · 6 years ago

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Gold Dust Woman part 1

pjo x mcu fusion: annabeth is iron man

crossposted on a03

It’s been twenty eight day since she was kidnapped. Annabeth would know this even if she wasn’t scratching a line into the wooden boards she called a bed every day. In situations like this, it was important to keep track of time. It keeps her from becoming disoriented, it keeps things in perspective.

Like how tomorrow the car battery that she has hooked up to her heart, that’s powering her heart, will give out, spent, and she’ll die.

Unless her miniature arc reactor works.

It has to.

Annabeth has spent countless nights awake, pouring over the math and plans. she flips through the pages and pages of sketches. Carefully combs through the numbers for any mistake, any miscalculation, until her eyes swim. In some ways its not all that different from home, where she’d spent days shut up in her lab, dreaming up new technology only to turn around and sell it to the military.

The arc reactor had been written off as a publicity stunt. An inefficient source of clean energy. A pipe dream no one had bothered chasing. Not even her when the math hadn’t worked on to make it feasible, she’d just shrugged, downed her scotch, and moved on to the next big contract.

She’d been so caught up in research and development, in making weapons, that she had lost track of things. Or maybe she didn’t want to know. Didn’t want to think about the people she’d killed. The blood on her hands.

If she’d bothered to keep track, maybe no one in her company would’ve sold things to the enemy.

If If If. She was going to drive herself crazy thinking about all the things she shouldn’ve done.

Annabeth didn’t have time for that.

Not here. She won’t die here in this godforsaken cave, not before she can put things right. Not before she can start to make amends.

She refuses to let death be her legacy.

“I’m here if you need steadier hands,” Armeen Hephaestus utters over to her from his own spot, carefully stripping down the weapons and tools they’ve been given according to her own schematics.

Every moment they waste not working on her plan is another second in which the 10 Rings might turn around and decide to kill them.

“It’s alright,” she answers, not bothering to look up. Annabeth hates relying on others, hates that she won’t be able to insert the arc reactor herself, might die unable to do anything to save herself if it fails. “Just stick to the plan.”

The words tumble out harshly in the soft light of the cave, lightbulbs flickering. The electric grid thats been rigged up is horribly inefficient, but Annabeth isn’t about to tell her captors that.

Her hands don’t shake as she places the last pieces in and waits for the flicker. For the arc reactor to power on if she’s rights about the math and she always is, this should generate more power than it consumes. It won’t be perfect.

But it’ll keep her alive and that’s good enough for now.

Annabeth sighs in relief as it flickers softly, before a steady white light comes on light. She can’t wait to see the look on Arachne’s face when Annabeth shows her what she did with their publicity stunt.

If she makes it out alive.

No. She puts the arc reactor down, turning to call over Hephaestus, she can’t think like that.

“Come on Armeen,” she tells him, “I can’t wait to stop lugging around this battery.”

It’s been twenty eight days and Annabeth wonders where Thalia is, leading the search over the vast deserts of Afghanistan.

It doesn’t really matter.

The 10 Rings was right, they’ll never find her here. There’s just to much ground to cover.

That’s fine. Annabeth’s only ever been able to rely on herself and she’ll get herself out of here and Hephaestus too.

Then she’ll make sure Chase Industries never manufactures another weapon again.

Six shots in, a glass of champagne in hand for the occasion and Annabeth is bubbly. Is open and friendly in the addictive way she can never manage sober. Her smile feels foreign but the man who’s wrapped his arms about her, his hand covering hers before they throw the dice and watch it hit the roulette before landing on one of their winning numbers, he’s fun and hot and she likes one night stands. They’re easy.

“Yay,” she giggles, turning to him, giving up on his name when her thoughts feel so disconnected.

“You must be my good luck charm,” he grins, looking boyishly charming as he does.

It’s such a cliche, fitting in perfectly in Vegas.

Grover rolls his eyes, clearing finding the line beyond cheesy, from his spot on her right, the rest of her bodyguards spread out around.

“Yeah,” she replies airily, downing her champagne and distantly wondering if its to late to upgrade the targeting systems on the Medusa Missiles. Her mother never acknowledged anything less then perfection. It was a trait she’d passed on to her, along with her grey eyes and height.

No, both her parents had been tall.

He kisses her, lips saturated with beer, and Annabeth mindlessly goes along, wishing men weren’t so into beer. It never tastes good. And cocktails were so much better at getting people drunk faster.

“Lets go again,” he suggests.

“I’m game,” she answers, signaling for another drink.

Annabeth doesn’t really have time for this, she’s leaving Vegas in an hour back to San Francisco. But maybe he’d like a free ride to SF?

“Annabeth,” Thalia calls out, meeting Jack’s? drunk and carefree gaze with her own steely one, the same look she gave Annabeth overtime she found her less them sober, falling over and refusing Grover’s assistance, “you missed the ceremony.”

It’s the chastising of someone who’s already given up hope of getting through, hand wrapped around a glass award.

The reason she’d come to Vegas.

“Vegas is so fun,” she replies, dismissing the man and falling into step besides Thalia, away from the gambling tables, “and yet you want me to spend my time here in a room full of corporate assholes?”

It does the trick, Thalia laughs, “so long as you make it to the plane for-,”

“I know,” she cuts off, “gosh mom there’s a reason I have a nanny!” She takes the trophy from Thalia before she can think to try and smash her head in with it, “I’m sure Katie’ll find a great place to put this were it’s not ostentatious.” Next tool the other awards.

“Pretty sure you gave up any hope of that when you built a hose overlooking the bay,” Thalia replies, her uniform looking nice and starched. She was at home in uniform more than Annabeth could hope to be in a dress, but it was Vegas and it felt right when she’d decided on the Cushnie. Now she was missing her comfortable suits. “do you have any clue how much real-estate is going for in San Fransisco these days?”

“It’s on the cliffs,” Annabeth adds with a grin at her old friend. They’d been at MIT together, back when Thalia had over-dyed black hair and ripped band t shirts, perpetually wearing sandals even in winter.

“Let me know when you want to settle down,” Thalia teases, “I’d love to be a trophy wife.”

“I thought they’d reinstated don’t ask don’t tell now with the new administration,” Annabeth wonders out loud.

Thalia nudges her side lightly, “don’t even get me started. I risk my life serving this country and this is the thanks I get back home! This is who the country votes for?”

The limo pulls up and Grover opens the door up for her, forever the gentleman.

Annabeth laughs at Thalia, “You know what they say, there’s no rest for the wicked. See you in a few.”

Tahlia shakes her head as she walks aways.

Annabeth grins and steps towards the open car door.

Before she can slide into the car and head home, a voice calls out behind her, “Ms. Chase do you have anything to say on the situation in Afghanistan.”

She looks at Glover, who helplessly shrugs, “I guess he’s hot. I don’t know. I’m only Juniper-sexual.”

Annabeth turns around, facing a rather handsome man, tall, broad shoulders and chiseled chin. It just reminds her of everything she’s not. This is the person that the military would love to deal with, not her. Not another Chase woman.

“Go for it,” she says with a grin, forcing herself no to pull down on her dress, it’s supposed to be this short. Maybe she needed a new tailor?

“Annabeth Chase, you’ve been called the Da Vinci of our times,” he starts, making her beam despite herself, she’s always a fool for flattery, “what do you have to say to that?”

“I do what I can to contribute to society, to making a better world.” It’s one of those vague statements her PR handlers had drilled into her. Harmless regardless of any context.

“What about your other nickname? The Merchant of Death? What do you have to say to that,” there’s teeth to his smile this time, a crusader then. Another reporter out to change the world.

“Let me guess, Berkeley ,” she says in lieu of an answer, the school was infamous for their many protests.

“Boston U actually.”

Annabeth nods. “Well, it’s an imperfect world we live in. I guarantee the day weapons are no longer needed to defend this country and it’s peoples freedoms I’ll start making bricks and solar panels.” She pauses, crossing her arms in front of her. This was the thing about dresses, where was she supposed to stuff her hands into? “My mother used to say that peace was having a bigger stick than the other side,” Annabeth says with a shrug. Athena had never spoken those words to her, but she’d parroted them often enough to the press. “And isn’t peace what we all want?”

He grins like he’s in on the joke, only highlighting how handsome he is, dark skin and even darker eyes, “interesting words coming from the woman selling the sticks.”

Even she grins at this, genuine for the first time all night. “What’s you name?”

“Isaiah, Isaiah Levey from Vanity Fair magazine.”

“Well Isaiah,” Annabeth replies, liking the way his name sounds on her lips, liking the look of him even more, “My mother helped defeat the nazis, she worked on the Manhattan project, she developed technology that propelled us into space and is now used in computers and phones. A lot of people, including your professors at Boston, would call that being a hero.”

Isaiah fires back, “A lot of people would also call that war profiteering.”

Annabeth’s lips draw thin, as the alcohol that’s kept her buzzed for the last hour wears off, “Tell me, do you plan on including the countless lives we’ve save through advancements in medical care and agricrops? All those breakthroughs,” she says pointedly, “military funding.”

“Wow,” he says shaking his head, “you ever lose an hour of sleep your whole life?”

And just like the fuckboys Katie always complains about, like she didn't somehow incorporate flannel into all of her outfits, she utters, “I’m prepared to lose a few with you.”

She might be off-putting at the best of times, and not half as beautiful as the wives of her fellow billionaires, but confidence could more than make of for those shortcomings.

Isaiah shrugs helplessly, grin on his lips, and he slides into the limo with her.

It’s been seventy nine days since she’d watched a humvee blow up. It was a lot nastier up close then in testing facilities out in Nevada, where distance made the explosion look beautiful.

Before she could register that they were under attack, before she could react and put her drink down or maybe finish it off and hope it was just a nightmare, the solider in the front. . .R-something. . .Reyes?. . .maybe it was Ramirez? Was telling her to get down, the words barely leaving her mouth before a gunshot splattered her brains reminiscent of a Pollock, body falling over like a puppet that had its strings cut.

Annabeth had looked around stupidly. She didn’t know what to do. More gunshots. More blood.

There had been smoke and dust and she couldn’t see anything, couldn’t even see her enemy until she heard the gunshots, seconds before they made contact, ripping through the Humvee like it was made of cardboard.

She crawls out, dodging behind the nearest rock, in too much shock. Her hand goes reflexively to her necklace, thumbing over the beads. More gunshots. There’s no way to know where to go. Who’s her enemy and where she should run too so she just stays hurled behind the rocks.

Annabeth wants to slap herself, throat choked on a scream. Everyone likes to believe they’d react the right way in a fight or flight situation but theres no right way and oh my god she’s going to die.

Then there was the missile, landing just close enough for her to make out the logo, the same logo she’d learned to recognize when she was still learning to write, Chase Industries and then the explosion and then nothing.

It’s night.

And the 10 rings members are suddenly filing in, guns locked and loaded.

Annabeth knows its night because the shifts changed. Even with their rotating shifts and change in partners, she’d quickly memorized their faces. Besides, at night, they yawn more.

They yell in their various languages, strutting around and throwing their weight before a bald man clicks his fingers, his face hard, with a glee in his eyes that speaks to a sadistic nature.

They grab for Armeen, dragging him before the bald man, knocking him to his knees.

The bald man must be the leader. Head held high, back straight as though he’s looking down at everyone. He can’t be much taller than her.

Annabeth might be tall for a woman, but she’s only average in comparison to most men and Hephaestus is taller than most. He’s also lanky, hands rough from hard labour. Not a handsome man with his large nose and small chin, eyes lost behind thick glasses.

He’s her friend and when they bring a hot iron rod to his mouth she finds herself yelling, “NO,” moving forward against her better judgement.

All the guns in the room point at her.

She blinks, realizing that no matter how valuable she is, how rich she is, how smart she is, they won’t hesitate to shoot. Their patience has worn through.

“I need him,” she utters, her protest sounding weak to her own ears, “he’s a good assistant.” She won’t have anymore blood on her hands. He has a wife and kids back home.

Annabeth only has Thalia. People she pays probably don’t count. Grover and Katie’ve no doubt found a new job.

She would’ve.

Then again, there’s a reason everyone’s always found her cold.

“You have twenty four hours to give me a Medusa Missile or I’ll shoot you both,” the bald man spits, “I don’t care who you are you bitch!”

She doesn’t wince anymore. The words cold bitch have long trailed after her.

The man kicks Hephaestus aside, before turning to leave.

Then their gone.

A look at him and they both know they’re in for a long night if her plan’s going to work, if they’re going to escape.

Annabeth wakes up at six in the morning on the dot the same way she has every day since boarding school.

Isaiah is still sleeping when she slips out of her room and down her lab.

Katie’ll take care of him later.

Katie’ll also let her know when it’s time to go, the only person aside from herself who knows the password down to her lab, her heels click on the glass steps.

“You are supposed to be halfway around the world,” she utters already scrolling through her ChasePad, a prototype of the latest version that was still in development, her tone leaving no room for argument.

“How’d she take it,” Annabeth says, pivoting while she looks over her latest engine, finding that the Lamborgini, no matter how nice it looked, handled like shit.

“Like a champ,” Katie replies.

“Why’re you trying to kick me out of my own house,” Annabeth asks, shifting her weight onto her other leg before it can fall asleep, the last few screws falling into places. At first it was just a matter of replacing the wheels and suspension, but once she looked under the hood, Annabeth knew she could do better.

“Your flight was scheduled to leave an hour and a half ago,” Katie says curtly. Grover must have told her how much she drank last night.

“You know, I do know my limit,” she responds, “and it’s my plane so shouldn’t it take off whenever I want it to?” She’s being ridiculous, Annabeth knows this, but. . .she doesn’t know.

She won’t see Katie for a three days. It’s not long in the grand scheme of things. . .

Katie ignores her, barreling on, “Social drinking is a stepping stone to alcoholism and I need to speak to you about a couple things, before I send you on your way.”

“I mean whats the point of a private plane if I’m still subjected to boarding times.” Grover had told her once about commercial flights and Annabeth had felt something inside her wither and die. It probably came with never having to deal with anything money couldn’t fix.

Maybe she should get out more, talk to people other than her employees and those with a vested interest in her company.

“Xiao called, she has another Jackson Pollock lined up for the auction, do you want it? Yes or no.” Annabeth couldn’t see any point to splatter paint, there was no technique or point really. She much preferred the carefully rated indian and egyptian art pieces. There was the greek technical prowess in sculpture and paintings, coming the closest to lifelike. But her dad had lover abstract art and modern art.

So, “yes,” she answers, turning around and gladly downing the last of her cup of water. Her head was still pounding even after the two pills she’d taken this morning. Hangovers were the thing that would knock down any impending alcoholism Katie kept nagging her about.

“It’s overpriced,” Katie informs her, “and not a great representation of his later renowned work.”

“I said yes Katie,” she sighs, hearing the snap in her own voice, scrambling to add, “it’ll be like those parents who hang up all their kids drawing from preschool.” Her mother had never done that, waving annabeth away until she’d come back with her first circuit board, lines deep around her mouth as she’d frowned and told her the how inefficient it was.

Katie smiles, “Okay. The MIT commencement-,”

“Is in June,” annabeth says walking up to the main floor, “nice try.”

“Well if I have to hear it then you have to hear it,” Katie teases, easily, the clack of heels on concrete a tell tale sign that she’s following close behind.

“Didn’t I hire you to hear it so I don’t have to,” Annabeth snipes back, knowing Katie won’t take it the wrong way. They’ve been working together for to long.

“I’ll take that as a yes and I need you to sign this,” she says offering up a long and complicated paper with fine print as they reach the main living room, her duffle bag and carry on already prepared for her.

“Wow you’re really trying to get rid of me. Why?” It’s blunt, the way Annabeth has learned to be in the corporate world and military world where old men will look down on her and call her girl.

“I have plans.”

Annabeth makes a face, “I don’t like it when you have plans.”

Katie rolls her eyes, “first of all that’s why we have unions and workers rights and secondly I’m allowed to have plans on my birthday.”

Annabeth winces. She’d forgotten. She relied so much on Katie to remind her of all her appointments and meeting, and she could hardly tell Katie to reminder of her birthday. “Is it? This weekend?” It must be November then.

That explained all the christmas decorations that had been up in Vegas.

“Yes,” Katie responds, smothering a laugh, “isn’t that strange? It’s the same day as last year.”

“Well, buy yourself something nice from me.” Annabeth never knew what people wanted and it just didn’t seem practical to guess. That’s how people ended up with something useless, that they didn’t want, and then had to figure out what to do with; regift it, throw it aways, or have ti sit in the back of your closet.

“I already did.”

“Is it a new and exotic species of plant,” She asks knowingly. Katie had a way with plants, managing to keep even orchids alive.

“Thank you,” Katie says with a soft smile, before thrusting Annabeth’s luggage at her and pushing her out the door where Grover awaits with the ferrari, one designed by the great Nikki Lauda, the splashiest thing her father ever owned. It had only needed minor adjustments.

Annabeth laughs and helps Grover throw her luggage in.

The suit works, she flies for a full fifteen seconds before crashing, just long enough to escape the fireball of explosions she leaves behind.

Along with Hephaestus.

Dead.

Another death on her hands.

Even in February, the deserts of Afghanistan are scorching hot, dry, her eyes are strained after spending almost three months in darkness, only broken by weak lighting.

In comparison the sun a entirely too bright, too much.

Her throat arched, a strip of fabric wrapped around her head as a makeshift hat, keeping some of the sun off her.

The sun keeps her going, orients her because the sun always east and sets in the west, no matter what part of the world she’s in, ignoring how everywhere she looks out to looks the same. Sand, and more fucking sand.

It’s been eighty days since she was kidnapped.

they must still be searching for her. Thalia wouldn’t abandon her. Besides she’d Annabeth Chase, billionaire wonderkid, child of the late great Athena Chase.

But the fear of wondering forever, until she collapses and dies nags at her.

There’s just so much sand.

Vast planes spreading out beyond her as she leaves the mountains at her back.

What are the chances of-Thalia. . .

. . .Thalia finding her. . .

She hears the sounds first, the beautiful roaring of army craft, too steady too be of any make other than the united states government.

It’s the most wonderful sound she’s ever heard.

Her hands spread out, waving over. . .

Holy shit! Holy fucking shit!

It worked!

Something in her chest loosens, a weight, the panic that’s been kept at bay by adrenalin, by need and focus, hummingbird panic that makes her arc reactor flicker in the bright daylight of the desert, worlds away from the gloomy rain of San Fransisco in the winter.

She can breath now.

She’s alive.

Alive.

A live.

It feels like something that belongs to someone else. The drinks and parties and work and billions in the bank.

That can’t be. . .her.

The image of her own missile landing right in front of her forever seared into the backs of her eyelids.

Thalia walks down and out of the aircraft, soldiers fanning out with heavy automatic arms pointed out into the desert plains.

Annabeth can breath now. She smiles, falling into Thalia’s arms, into her embrace. She’s never been more glad to see Thalia’s dark blue eyes, almost black in some light.

“How was the fun-vee?”

“Shut the fuck up,” Annabeth hears herself say and then she’s gone. Exhausted down to her bones. The weight of running for months on adrenalin finally catching up to her and she blacks out, sliding into R.E.M. sleep for the first time since SF.

Later Thalia’ll tell her she was debriefed and gave coherent answers before downing some crackers and a coke, getting a quick medical checkup, before they let her sleep.

She doesn’t remember a thing after she see’s Thalia. Her very own godly apparition.

#percy jackon and the olympians #percy jackson #annabeth chase #katie gardner #grover underwood #thalia grace #connor stoll #travis stoll #mine #pls validate me and my last weeks work

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blckandbruises-a · 7 years ago

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tagging for mention: @nowthorn, @basedmercury

previously on battlestar galactica

The fight had spiraled out of control in a matter of minutes, as it always did when Cobalt travelled alone. In company, he had positive emotional buffers to dampen the parts of him that the Grimm navigated towards. The black ichor on his soul attracted them like moths to the flame, but in such number that the flame should’ve sputtered out three miles after he’d escaped the Atlesian Air Defense base.

Instead, two days of hard running later, Cobalt was still swinging away.

A right hook that Yang would be proud of caught a Beowulf in the jaw, the creature erupting into smoke and ashes as Dexter’s claws plunged into it’s hide. He lunged forward with a roar of battle on his lips, a bestial challenge as Sinister and Dexter both sang in the sunlight. Claws found another Beowulf hide, the creature yowling as it’s company moved to assist. But there was nothing for them but a feral blender of knives, the edges slashing and gouging away at each one that came close. For creatures that left no corpse, it was absolute carnage.

It was a dangerous game.

Cobalt felt the Beast rise in him and emerge in a roar, stunning the Grimm into falling back. He swallowed his fury, struggling to rein in the monstrosity under his skin. Combat as thick as this made his survival instincts run wild. A knee sunk into the snow, Cobalt panting heavily. He wasn’t injured or wounded, but he was exhausted. Getting tired made it easier for the Beast to take control, and the last thing Cobalt wanted to do was black out in the snow.

Cobalt breathed deeply, the icy wind of Mantle searing his lungs. He started to move again, eyes searching up at the line of mountains. His destination was there, just beyond the next ridge. There was a crater there, unnatural and enormous, filled in with years of snow and ice but still a noticeable scar in the mountainside. Cobalt drew closer, seeing the first communication spires, covered in ice and dilapidated from a lack of care over the years, sticking out of the snow like forgotten spears. He could make out the pieces of some of the buildings that were in this secret lab, but nothing compared to seeing the giant, open floors of the laboratory, like yawning mouths of Ursa, in the back of the crater.

When Cobalt had escaped, he’d torn through the place on a rampage. He left no survivors. He showed no mercy. At the moment, such thoughts were alien to him, but now it disturbed him that he felt absolutely no guilt. They’d done worse to him. Giving the primary reactor a meltdown seemed like just rewards for mutating him.

The wind stung at his cheeks, and Cobalt drew his cloak closer. He checked his scroll. The words ‘no signal’ stared back at him, the same way they had since he’d left the base. No Pop. No Ruby. No Yang. He was out here, alone, with no backup. Cobalt looked up at the gap in the mountain, and stepped over the bones of a lab tech into the grave. His grave, if he wasn’t careful.

While his signal didn’t work, at least the flashlight on his scroll did. Descending into the dark, Cobalt followed the familiar alabaster walls of the lab. He could see the painted lines on the floor-green for medical work, blue for genetic, red for live testing-fading with time and splintering off down different hallways. But even without them, he knew his way into the dark. He looked up a mile in, as he descended a set of stairs. He could hear things in the dark, skittering around and scratching at his senses. Cobalt looked and saw something small with red eyes vanish into a corridor. Grimm. No wonder they were here. Cobalt’s misery had been enough to draw them here, and so had the desperate hour of the doctors who had experimented on him. He drew his flashlight around, sweeping it towards...

A light.

Cobalt froze. There should be no power here. Especially not in there. This room, this last room, was his birthing suite. He could make out the cylindrical cell he’d been kept in for years, scratched and scarred to hell, before he took another step, the sound of his boot ringing across the floor.

“Cobalt...?”

The voice was weak, but unmistakable. Cobalt stepped forward a little faster, and looked into the room. In the cell, clutching a gash on her stomach, a girl stared back with a head of red hair and unmistakable, and weakening, silver eyes. Cobalt froze. “Rubes?”

“C-Cobalt,” she coughed, blood dripping from her lips, “the...the rats...”

What ‘rats’ made themselves apparent quickly. Cobalt turned, as thousands and thousands of red eyes stared back. They were on the walls, the ceiling, the floor. They surged together as one, Cobalt placing his scroll away. But instead of charging him, they swarmed over each other, forming a gigantic sphere of Grimm Rats. Their eyes flashed, and they all looked to Cobalt as one unit. Tails knotted together, they formed a titantic figure, looming in the dark-

“The Rat King. Fuck, I wasn’t the only unkillable bastard to come out of this pit.” Cobalt turned around. Ruby was leaning harder on the door and growing paler and paler. “Hang on tight, kiddo!” Cobalt shouted, “I’ll get you out!”

The Rat King screamed with a thousand sharp fangs and moved forward. Like a gorilla, rats formed long arms and short legs, a giant maw opening in the formation. Cobalt met it with a battle cry, Sinister and Dexter unsheathing their knives. He drove them into the Rat King and instead felt hundreds of fangs gnaw at his arms. He yelled in pain, pulling the claws to the side. Grimm rats flew in every direction, sputtering into ashes, but more came from the dark. The Rat King was unperturbed, two claws gripping Cobalt and forcing him to the floor. Both of them squeezed his forearms, and teeth chipped away at his weapons. Cobalt struggled and fought, but howled in pain as he felt both gauntlets shatter under the sheer force.

His bones would be next.

He leaned back, looking up at Ruby. She was looking paler, red pooling on her blouse as she fell to her knees. “Coby...please,” she coughed, more blood on the glass, “run.” But Cobalt didn’t run. No, he’d never run from a fight, not when his sister needed him. He looked up at the thousand eyes of the Rat King, and dug deep into himself. Cobalt opened his mouth as the Rat King screamed, and a bellow that shook the earth left his jaws.

Cobalt unleashed the Beast.

What happened next came in a flurry. The pieces of proud Sinister and noble Dexter fell away from two enormous arms in black fur as the horned creature surged upwards. A claw dug into the Rat King’s neck and tore. Jaws closed and gnashed as he assaulted the Rat King from below. He felt the manufactured claws of rats dig into his back, but Cobalt, in his berserk fury, only slashed faster and bit harder. He tore the Rat King apart, one cluster of rats at a time, until nothing was left but the screaming remains. They splintered and ran, as the horned behemoth whipped his tail into the earth. He couldn’t feel the blood on his back, or taste the drool in his mouth.

With the battle one, Cobalt tried to rein in the monster. But suddenly, he was out of control. He was a witness as the horned monster turned, smelling blood and despair. He looked with red eyes into the cylindrical cell. Ruby’s eyes widened as the monster moved forward. The door swung open, on it’s own, as if offering her to him. The blood was in his nose, in his head. Cobalt could do nothing. He pulled and pulled desperately, screaming in his own mind, as the Beast lunged forward, jaws closing-

-around nothing. The illusion of his dying sister, that the Beast was so eager to sink his fangs into, vanished. The door shut behind him, and the Beast turned, bellowing a challenge. The bellow turned into a scream of pain as electricity erupted into the cage. He lashed and howled, slamming fists and slashing claws at the glass in vain. He stumbled as the shocks continued, slumping to the floor. The Beast twitched, and though it and Cobalt suffered together, Cobalt took control once more. The creature melted away, exposing the man below. He shook, convulsing with each charge, and opened his eyes.

A girl stood before him, green hair cut into a fringe, red eyes looking back at him. A boy flanked her, glad in grey, both staring in shock at what they had seen. The girl moved slender fingers from her forehead. “That thing is-”

“Ruby’s brother, yes.” Cobalt felt the Beast grumble at the sound of the smooth voice. He tried to push himself up, but his body gave out. His breath was turning labored. He struggled to keep his eyes open. A knock came from the glass, and Cobalt opened his eyes one last time, glaring spitefully up at Watts. “Hard to believe, with how the Grimm behaved. But now, we’ve got him again.”

“So,” the boy said, tilting his head at the shuddering figure, “what do we do with him now?”

Cobalt shuddered one last time as the door opened. “Help him to the slab,” he heard Watts command, vision fading as the girl and the boy stepped forward into the cell, “we have so much work to catch up on...”

#t: prose #t: brawl in the branwens (Branwen AU)#THIS TURNED OUT LONGER THAN INTENDED #MY BAD

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atrasahi1 · 4 years ago

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sealmax · 4 years ago

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Gaskets are widely used for the safety, containment, and hygiene of tanks, reactors, pipelines etc. Leading PTFE sheet manufacturers are utilizing technology to produce high-quality tailor-made PTFE envelope gaskets. And these gaskets are easily available in various sizes and customising them to suit a number of applications.

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freechaoskitten · 4 years ago

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An akadema Glove Review

akadema glove is a well known brand that is used by many people. It has been manufactured for many years and it is a very popular product. The question that many people would like to know is why the brand is so popular. Well, it could be because of its quality, which is the primary factor that helps people to select this product. The next question that would be arising in the minds of buyers would be about the quality of this glove.

In fact, the quality of this glove is high. It has a good grip when in wet conditions and hence it is popular among a wide range of people. This glove is designed in such a way that it provides high comfort to the users. It has been noted that the people who have used it have found out that the quality of the glove has assisted them in fighting against different types of infections that are very common in the human hand. They say that it has helped them in relieving the pain caused due to bacterial infections and other disorders of the hand. However, the question that would arise in the mind of buyers would be that how the quality of this glove is high?

As a part of the process of studying the quality of akadema glove, it was found out that testing of the glove by any of the approved laboratories has proven that it provides good quality results. This quality is also reflected in the way that the glove is worn by the user. When the glove is put on the hands, it provides perfect grip and comfort. It is said that in this way, the blood pressure of the wearer is reduced and he or she is more relaxed as the blood flow is increased.

The akadema glove research has been made with high quality materials. It is manufactured from the highest quality leather that is soft and flexible. It has also been treated with water repellent properties so that it protects the user from the water. It is provided with a special waterproof property that ensures that the glove does not get wet even during times of rains. In addition, the company from which this glove is manufactured also follows the best manufacturing standards that are essential for manufacturing a quality product.

The quality of this glove is further improved when it comes to the stitching used in the glove. It is enhanced further with the addition of extra stitches that have been provided on the inside portion of the glove. The stitching of this glove is not only done neatly but it also has been done keeping in mind the comfort of the user. Since the glove is meant to provide maximum comfort to the wearer, it follows the contour of the hand very closely. Hence, the glove can be said to be of best possible quality.

Finally, another aspect that has impressed many buyers is that the akadema glove from Akadema Company, India is affordable and yet of good quality. The price is competitive and yet the product is considered as one of the best products in the market today. If you want to buy an Akadema glove, you must visit their official website and select the best product for yourself. You will surely find the best quality glove at an affordable price from the company's official site.

Summary

Further key aspects of the report indicate that:

Chapter 1: Research Scope: Product Definition, Type, End-Use & Methodology

Chapter 2: Global Industry Summary

Chapter 3: Market Dynamics

Chapter 4: Global Market Segmentation by region, type and End-Use

Chapter 5: North America Market Segmentation by region, type and End-Use

Chapter 6: Europe Market Segmentation by region, type and End-Use

Chapter 7: Asia-Pacific Market Segmentation by region, type and End-Use

Chapter 8: South America Market Segmentation by region, type and End-Use

Chapter 9: Middle East and Africa Market Segmentation by region, type and End-Use.

Chapter 10: Market Competition by Companies

Chapter 11: Market forecast and environment forecast.

Chapter 12: Industry Summary.

The global Glove Box market has the potential to grow with xx million USD with growing CAGR in the forecast period from 2021f to 2026f. Factors driving the market for @@@@@ are the significant development of demand and improvement of COVID-19 and geo-economics.

Based on the type of product, the global Glove Box market segmented into

Plastic Glove Box

Stainless Steel Glove Box

Aluminum Glove Box

Others

Based on the end-use, the global Glove Box market classified into

Defense Industry

Pharmaceutical and Biotechnology

Eletronic/Lithium Batteries

Others

Based on geography, the global Glove Box market segmented into

North America [U.S., Canada, Mexico]

Europe [Germany, UK, France, Italy, Rest of Europe]

Asia-Pacific [China, India, Japan, South Korea, Southeast Asia, Australia, Rest of Asia Pacific]

South America [Brazil, Argentina, Rest of Latin America]

Middle East & Africa [GCC, North Africa, South Africa, Rest of Middle East and Africa]

And the major players included in the report are

Cole-Parmer Instrument Company

Coy Laboratory Products

Glove Box Technology

Vacuum Atmospheres Co

Inert Technology

Mbraun GmbH

Laminar Flow Inc

LC Technology Solutions Inc

Terra Universal

Sheldon Manufacturing

T-M Vacuum Products

Banthrax

Germfree

NuAire

Plas-Labs

Vacuum Technology Inc

Glove Box Market report offers great insights of the market and consumer data and their interpretation through various figures and graphs. Report has embedded global market and regional market deep analysis through various research methodologies. The report also offers great competitor analysis of the industries and highlights the key aspect of their business like success stories, market development and growth rate.

Glasses-Free HD 3D Displays Market

Glass Mold Market

Glass Lined Reactor Market

Glass Fibers Market

#akadema glove akadema glove Research akadema glove Research Reports akadema glove Share akadema glove Players akadema glove forecast akadema

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glasskem · 3 months ago

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Need reliable glass-lined equipment for your chemical, pharma, or food business? GlassKem offers durable, corrosion-resistant solutions to enhance productivity and safety.

#high-quality glass-lined products #glass-lined equipment usa #glass-lined equipment manufacturer #glass-lined lab reactors #glass-lined reactors

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researchetcsblog · 4 years ago

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An akadema Glove Review

Summary

Further key aspects of the report indicate that:

Chapter 1: Research Scope: Product Definition, Type, End-Use & Methodology

Chapter 2: Global Industry Summary

Chapter 3: Market Dynamics

Chapter 4: Global Market Segmentation by region, type and End-Use

Chapter 5: North America Market Segmentation by region, type and End-Use

Chapter 6: Europe Market Segmentation by region, type and End-Use

Chapter 7: Asia-Pacific Market Segmentation by region, type and End-Use

Chapter 8: South America Market Segmentation by region, type and End-Use

Chapter 9: Middle East and Africa Market Segmentation by region, type and End-Use.

Chapter 10: Market Competition by Companies

Chapter 11: Market forecast and environment forecast.

Chapter 12: Industry Summary.

Based on the type of product, the global Glove Box market segmented into

Plastic Glove Box

Stainless Steel Glove Box

Aluminum Glove Box

Others

Based on the end-use, the global Glove Box market classified into

Defense Industry

Pharmaceutical and Biotechnology

Eletronic/Lithium Batteries

Others

Based on geography, the global Glove Box market segmented into

North America [U.S., Canada, Mexico]

Europe [Germany, UK, France, Italy, Rest of Europe]

Asia-Pacific [China, India, Japan, South Korea, Southeast Asia, Australia, Rest of Asia Pacific]

South America [Brazil, Argentina, Rest of Latin America]

Middle East & Africa [GCC, North Africa, South Africa, Rest of Middle East and Africa]

And the major players included in the report are

Cole-Parmer Instrument Company

Coy Laboratory Products

Glove Box Technology

Vacuum Atmospheres Co

Inert Technology

Mbraun GmbH

Laminar Flow Inc

LC Technology Solutions Inc

Terra Universal

Sheldon Manufacturing

T-M Vacuum Products

Banthrax

Germfree

NuAire

Plas-Labs

Vacuum Technology Inc

Glasses-Free HD 3D Displays Market

Glass Mold Market

Glass Lined Reactor Market

Glass Fibers Market

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michellechronicles · 4 years ago

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Crisis Inspiring Innovation

Biotechnology and pharmaceutical companies are constantly developing with job mapping (users as innovators) in mind. While I can’t say all diagnostic tools and drugs are developed toward improving quality of life, I find some of the most important and recent innovations were inspired by the pandemic. The pandemic revealed deep underlying problems in the healthcare system, changed the way we perceive the world and forced scientists to respond by innovating in new directions. By pushing the frontiers of science forward, scientists have reinvented traditional vaccines, manufactured proprietary Valor Glass (vials for vaccines) at Corning, and developed diagnostics in surveillance platforms. In terms of regulations, the FDA responded by adapting its policies, exercising emergency use authorization (EUA) authority, creating Coronavirus Treatment Acceleration Program (CTAP), and launching the Pandemic Recovery and Preparedness Plan (PREPP) initiative to strengthen the nation’s public health protections against chemical, biological, radiological and nuclear (CBRN) threats.

Traditional vaccines inject bits of attenuated or inactivated viruses and take an average of 10 years to progress from lab research to being administered in the hospital. Scientists have to understand the pathogen causing the infectious disease and identify its associated antigen, which activates our immune system to fight the virus. Then, the antigen must be mass produced before becoming integrated into a vaccine. In general, it’s a very lengthy process.

However, antigens are usually proteins, and human cells are constantly making proteins as building blocks to maintain our bodies. Scientists asked a question: What if we can program our own cells to make these antigens and trigger the same immune response as traditional vaccine, and tried to improve the process? This is the goal of mRNA vaccines. mRNA is the code instructing our cells what proteins to make, and thanks to advances in DNA sequencing, we can quickly identify the code, make the antigenic proteins specific to the disease, and build the mRNA in the lab. In other words, mRNA vaccines deliver a code not in the form of antigenic proteins, but as instructions commanding our bodies to produce antigens. Once the antigen is present in our bodies, it initiates an immune response just like a traditional vaccine.

This technology could represent a paradigm shift in vaccination. mRNA is much simpler to produce than proteins. To synthesize mRNA, scientists insert a sequence corresponding to the mRNA into a plasmid, a small DNA molecule within a cell that can replicate itself. Then, this plasmid is put into a reactor where an enzymatic reaction triggers the synthesis of the mRNA. Finally, mRNAs are purified and encapsulated in a lipid nanoparticle, a shell of precisely formulated fat, which helps carry the mRNA into our cells. Inside the cells, mRNA is translated into the antigenic protein eventually triggering an immune response. Starting with raw materials, mRNA vaccine manufacturing takes about 2-6 weeks to produce a completed vaccine in a vial or syringe.

With vaccines ready for distribution, billions of vials will have to be manufactured, filled, and shipped, at top speed and in some cases under extreme stress (Pfizer’s vaccine must be kept below -90 degree C). Glass used to store vaccine must prove highly stable and chemically inert. Standard medical vials - made of borosilicate - often break as they’re filled, and just one damaged vial can ruin a batch of doses and stop a production line. In response to it, Corning has modified its manufacturing site and reinvented its vails to create an alternative to borosilicate, called Valor Glass. Using platinum-lined ceramic crucibles, heated to more than a thousand degrees F, they combine silica with new ingredients by adding alumina and removing boron to make the glass more resistant to degradation, and therefore less likely to leach contaminant into the contents. Other innovations include the process where converters cut and shape tubes of Valor Glass into vials, which are then submerged in a molten-salt bath. Potassium atoms in the hot mixture swap with smaller sodium atoms embedded in the surface of the glass, creating tension and therefore toughness - this process was first developed for Gorilla Glass, which is used in iPhones and other electronic devices. A vial fortified this way can withstand as much as a thousand pounds of force. Finally, the vials are transferred onto plastic tracks by robotic arms and conveyed through a chamber where they are rinsed, air-dried and coated with a polymer to reduce surface friction on a filling line, generating glass dust that can ruin doses. That said, there are also other companies racing to produce vaccine vials, because there are not enough vials now.

For the purpose of diagnosing, monitoring, screening and prognosis, in vitro diagnostic tests are essential. In an attempt to support global COVID-19 efforts, biotechnology companies like Illumina Inc. (as the gene sequencing leader) have responded by developing and launching its first rapid and scalable COVID-19 detection test under section 564 of the Federal Food, Drug, and Cosmetic Act (FD&C Act), where “the FDA commissioner may allow unapproved medical products or unapproved uses of approved medical products to be used in an emergency to diagnose …” The COVIDSeq test is an amplicon-based NGS test featuring primers designed to detect RNA from the SARS-CoV-2 virus in nasopharyngeal, oropharyngeal, and mid-turbinate nasal swabs from patients with signs and symptoms of infection who are suspected of COVID-19. As a quality control, an internal control consisting of 11 human mRNA targets is also included in every sample. In doing so, Illumina’s recent innovation has leveraged and modified existing validated and publicly available ARTIC multiplex PCR protocols to amplify SARS-CoV-2 virus-specific sequences using their proven sequencing technology.

References:

https://www.nature.com/articles/s41541-020-0159-8 (Links to an external site.)

https://www.nature.com/articles/nrd.2017.243 (Links to an external site.)

https://www.newyorker.com/magazine/2020/12/14/countdown-to-a-coronavirus-vaccine (Links to an external site.)

https://www.corning.com/worldwide/en/innovation/materials-science/glass/accelerated-covid-vaccine-preparation.html (Links to an external site.)

https://www.wsj.com/articles/covid-19-vaccines-could-depend-on-the-strength-of-this-vial-11605306378 (Links to an external site.)

https://www.newyorker.com/magazine/2020/12/07/the-race-to-make-vials-for-coronavirus-vaccines

https://www.fda.gov/emergency-preparedness-and-response/mcm-legal-regulatory-and-policy-framework/emergency-use-authorization (Links to an external site.)

https://sapac.illumina.com/company/news-center/press-releases/2020/8cd141fb-68d0-4144-8922-45693ac3f453.html

Edited by J.Briggs

#covid 19 #inspriation #innovation #mrna vaccine #valor glass #diagnostics

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ablazeglassworks · 5 years ago

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25 Features of Borosilicate Glass Reactors

In simple terms, borosilicate glass reactors are vessels made out of borosilicate glass that are widely used in the process industries. Ablaze Glassworks is one the best borosilicate glass manufacturers in India offering different types of glass vessel chemical reactors and borosilicate glass reactors that are known for high operational reliability at minimal expense.

In this blog, Ablaze Glassworks lists important 25 features of borosilicate glass reactors that make them beneficial to use:

1. Corrosion resistance

2. ATEX compliant

3. Compact frames usually made of steel

4. Nonporous surface

5. Designed for low volume, high value processes up to 600+ liters

6. Smooth glass texture

7. Mechanical stability

8. Catalytic inertness

9. Customizable design

10. Ecologically safe

11. CIP ability

12. Dual functional (heating and cooling)

13. Physiologically Safe

14. Vacuum stability

15. Crystal clear transparency for visual monitoring

16. Supports batch and continuous processes

17. Modular design

18. Easy to maintain

19. Low CAPEX

20. Zero hold up in reflux

21. Supports wide range of operation

22. Filtration efficiency

23. Reduce residence time

24. Uniform heating

25. Cost effective

To name a few top selling glass vessel chemical reactors by Ablaze Glassworks are Stirred High Pressure Reactors, skid mounted glass reactors, glass reactor with distillation plant, distillation plant with GL reactor and glass cover, distillation plant with glass lined reactor, distillation plant with heating and cooling oil bath, Agitated glass, notched filter reactor, gas scrubber system, rotary film evaporator, Dry HCI gas general plant and so on.

Glass vessel chemical reactors are popularly used in the pharmaceutical, chemical, cosmetics, petrochemical, herb extraction, fragrance and aromatics, herb extraction, industries.

If looking for Jacketed Vessels Suppliers in Gujarat, feel free to contact Ablaze Glassworks. Ablaze Glassworks also offers an array of process equipment, engineered system, process system, process instrument system and lab glassware.

#borosilicate glass manufacturers in India #borosilicate glass reactors #glass vessel chemical reactors #Stirred High Pressure Reactor #Jacketed Vessels Suppliers in Gujarat

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coppolafrancis · 6 years ago

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‘Diamonds Are Forever,’ and Made by Machine

De Beers is getting into the lab-created diamond business with a new line of fashion jewelry and an aggressive pricing strategy.

OXFORDSHIRE, England — In a white industrial building in the rolling hills of the English countryside 16 miles from Oxford, silver machines shaped like spaceships hum inside vast laboratories. They are replicating the extreme pressure and temperatures found deep in the earth’s crust and producing, in mere weeks, what historically nature managed only over billions of years: flawless diamonds.

This is the Element Six Innovation Center, the industrial arm of De Beers, the diamond behemoth that has operated mines from the Arctic to South Africa, that created (and for most of the 20th century controlled) the global diamond market, that convinced the world “a diamond is forever” and that made diamonds synonymous with engagement rings.

Focused for decades on things as diverse as tools for oil and gas drillers, high-powered lasers and state-of-the-art speaker systems, the De Beers scientists at Element Six have moved into new territory in recent months as the company sets its sights on a lucrative market it traditionally shunned: the production of synthetic jewelry stones.

On Tuesday, De Beers will introduce Lightbox, a fashion jewelry label selling (relatively) low-budget gems with mass-market appeal. (Think a sweet 16 gift, not an engagement ring.) Pastel pink, white and baby-blue lab-grown studs and pendants, priced from $200 for a quarter carat to $800 for one carat, will be presented in candy-colored cardboard gift boxes and initially sold directly to consumers via e-commerce.

Although diamonds made by companies like Diamond Foundry in the United States and New Diamond Technology of Russia usually cost 30 to 40 percent less than their natural counterparts, they are nowhere near as cheap as the ones from Lightbox, which will undercut its competitors by roughly 75 percent.

Through its aggressive pricing and pointed marketing, De Beers clearly aims to be a dominant player in this growing market, while simultaneously protecting its core business.

“The big miners have held concerns about the growth of the synthetic diamond jewelry market for some time, particularly over the last decade, as the quality of stones has improved and manufacturing costs have started to fall,” said Paul Zimnisky, an independent diamond industry analyst and consultant.

De Beers, which controls about 30 percent of the world’s supply of mined stones (down from two-thirds in 1998) and owns the fine jewelry brands De Beers and Forevermark, said it was just responding to consumer demand.

“Having done our research, we see a massive opportunity to enter into the fashion jewelry market now by doing something that consumers tell us that they want but that no one else has done yet: synthetic stones in new and fun colors, with lots of sparkle and at a far more accessible price point than existing lab-grown diamond offerings,” Bruce Cleaver, the chief executive, said during a phone interview.

The idea would have been unthinkable even two years ago, when De Beers was part of the “Real Is Rare” campaign to combat the promotion of synthetic stones as alternatives to mined diamonds led by the Diamond Producers Association Campaign. Though man-made stones account for only about 2 percent of the diamond industry’s supply, analysts at Citibank have forecast a possible rise to 10 percent by 2030.

“Consumers are clearly curious about synthetic stones,” Mr. Zimnisky said. “This isn’t a market that is about to go away.”

Chemically identical to mined diamonds (unlike past diamond substitutes such as cubic zirconia, moissanite or Swarovski crystals), synthetic diamonds have long been used for industrial purposes. De Beers itself has been “growing” diamonds at Element Six for 50 years, gradually producing stones from a hydrocarbon gas mixture in a high-pressure, high-temperature reactor.

But as Silicon Valley competitors began to market their synthetics as acceptable, greener choices and price them accordingly, De Beers, whose mining peers include Rio Tinto and Russia’s Alrosa, has decided to take the fight for market share to the laboratory turf. Alongside its high-pressure, high-temperature operations, Element Six is using a newer process known as C.V.D., or chemical vapor deposition, which uses low pressure in a vacuum filled with gases that react to create layers of carbon that gradually consolidate into a single stone. The new method is cheaper and easier to monitor than the older one and hence capable of being scalable as a jewelry business.

“Synthetics will never be as big as our natural business, and our investments into the space are dwarfed by those elsewhere,” Mr. Cleaver said. “But we have a massive advantage over everyone else, given the know-how and infrastructure provided by Element Six. So it’s something we have decided to be very serious about.” (A $94 million plant that De Beers is building in Gresham, Ore., is expected to generate half a million rough carats a year after its completion in 2020.)

At issue is an almost metaphysical question of what defines a diamond.

Is it its chemical structure, which is the argument of the synthetic manufacturers? Or is it its provenance: created deep in the ground by Mother Earth, rather than cooked up in a machine?

Consumers are understandably confused. In a poll of 2,011 adults conducted this month for the Diamond Producers Association by Harris Insights & Analytics, 68 percent said they did not consider synthetics to be real diamonds, 16 percent said they thought they were, and 16 percent said they weren’t sure. But an acceptance of these new products has the potential to transform the diamond market, because lab-grown diamonds are endlessly replicable.

Sally Morrison, the head of marketing for Lightbox, said the brand’s products were meant to be viewed by consumers as playful accessories.

“Everyone who is in this space is focusing their marketing on the bridal category,” Ms. Morrison said. “And we believe they are missing an incredibly interesting opportunity: the self-purchasing professional and younger woman, the older woman who already has a jewelry collection,” and any woman “who doesn’t want the weight and seriousness of a real diamond for everyday life.”

The message is conveyed though packaging that is clearly labeled “laboratory-grown diamonds” and intended to be the opposite of a velvet box. An inaugural ad campaign was styled by Micaela Erlanger, who became famous for dressing the actress Lupita Nyong’o for the red carpet. Featuring a diverse cast of young models romping in denim shirts and holding sparklers and laughing, the ads come with taglines like “Live, Laugh, Sparkle.”

“Man-made diamonds should not cost the same as natural stones — they really are totally separate businesses,” Steve Coe, the general manager of Lightbox, said as he stood by a glass box the size of a bowling bowl at Element Six. Inside was a diamond seed, from which a stone was growing roughly 0.0004 inch an hour.

A former scientist and head of innovation at Element Six, Mr. Coe moved to De Beers 18 months ago to study approaches to the synthetic jewelry market. “I am not that concerned by the other guys,” he said. “We are simply positioning the product at a price it should be, and where it will be in five or six years’ time, thus making sure our customers today are not unhappy customers tomorrow.”

In addition, Mr. Coe was also at pains to debunk what he called many of the “misleading and bogus claims” around synthetic diamonds: that they are more sustainable alternatives to mined stones, with shorter supply chains and smaller carbon footprints.

“Given the pressure required to create lab-grown diamonds, it’s akin to the Eiffel Tower being stacked on a can of Coke,” he said. “If you look at the detailed numbers, the energy consumption levels between natural and man-made diamonds are in the same ballpark.”

This is not the first time De Beers has created brands and advertising strategies in response to disruption in the diamond market since it gave up its monopoly in 2000, abandoning its 60-year policy of controlling supply and demand to concentrate on mining and marketing instead.

In 2002, after fashion brands such as Dior and Chanel began seriously penetrating the fine jewelry market, selling the importance of their design expertise, De Beers entered into a joint venture with LVMH Moët Hennessy Louis Vuitton and founded De Beers Diamond Jewelry. (De Beers had been forbidden to directly sell or distribute its diamonds in the United States because of longtime antitrust issues, since settled.) In 2017, De Beers bought out the 50 percent stake owned by LVMH to take full control of the brand.

Owning the brand gives De Beers “a much better view on what you think people will pay for medium- and long-term supply,” Mr. Cleaver said. “It’s an exceptionally valuable business for us in that sense. So is Forevermark.” That brand, which focuses on responsibly sourced gems, was created in 2008, partly in response to consumer appetite for conflict-free diamonds.

Lightbox is fully in line with this strategy. “Synthetics are fun and fashionable, but they are not real diamonds in my book,” Mr. Cleaver said. “They aren’t rare or given at life’s great moments. Nor should they be.”

If you are in search of diamond earrings for men then please contact us and send your queries.

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