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refractoryshapes · 5 days ago

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High-Performance Refractory Bricks for Industrial Use – Explore Top-Quality Options at RefShape

In industries where extreme temperatures are part of everyday operations—like metallurgy, cement, ceramics, and power generation—durability and thermal resistance are critical. That’s where refractory bricks come into play. At RefShape, we specialize in manufacturing and supplying high-grade refractory solutions that meet the demanding needs of modern industries. If you're looking for refractory bricks for sale, RefShape is your trusted partner.

What Are Refractory Bricks?

Refractory bricks, also known as fire bricks, are specially designed to withstand high temperatures, thermal shock, abrasion, and chemical attacks. These bricks are commonly used to line furnaces, kilns, incinerators, and reactors, making them a vital component in any high-temperature industrial process.

Key Benefits of RefShape Refractory Bricks

At RefShape, our refractory bricks are manufactured using advanced techniques and premium materials to ensure superior quality and performance. Here’s why industries choose us:

High Thermal Resistance: Withstand extreme heat without structural damage.

Excellent Strength and Durability: Built to last under pressure and high-stress environments.

Customized Sizes and Shapes: Tailored to your specific industrial application.

Chemical and Corrosion Resistance: Protects against aggressive materials.

Eco-Friendly and Safe: Made from non-toxic, high-quality raw materials.

Applications of Refractory Bricks

Our refractory bricks are suitable for a wide range of industrial uses:

Steel and metal foundries

Glass manufacturing units

Cement kilns and rotary furnaces

Chemical processing plants

Boilers, incinerators, and chimneys

Power plants and refineries

Whatever your industry, RefShape has the right refractory brick solution to match your operational requirements.

Refractory Bricks for Sale at RefShape

Looking for refractory bricks for sale? At RefShape, we offer a wide variety of standard and custom-designed fire bricks at competitive prices. Whether you need alumina bricks, insulating fire bricks, or silica bricks, our inventory is stocked and ready to meet your needs.

Why Buy from RefShape?

ISO-certified manufacturing

Expert technical support

Fast and reliable delivery

Bulk order discounts

Long-term supply partnership opportunities

Conclusion When it comes to high-temperature resilience, you can’t afford to compromise. Trust RefShape for premium-grade refractory bricks that deliver unmatched performance and reliability. Browse our catalog today for the best refractory bricks for sale, and let our team help you find the ideal solution for your heat-intensive operations.

Visit Us https://www.refshape.com/products/bricks/

#refractory bricks #refractory bricks for sale

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hescobarrier · 1 month ago

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Fire-Resistant Hesco Barriers for Industrial Use | ASTM-Certified Solutions by JOESCO

Industrial facilities like chemical plants, refineries, and power stations face constant fire risks. JOESCO’s fire-resistant Hesco barriers are engineered to contain flames, resist extreme heat, and prevent catastrophic spread—all while maintaining structural integrity under pressure.Fire-Resistant Hesco Barriers

Why Fire Resistance Matters in Industrial Barriers

JOESCO’s Fireproof Barrier System: Technical Breakdown

1. Material Science Behind the Resistance

Fabric: Triple-layer fiberglass-PVC composite with ceramic coatings.

Mesh: Galvanized steel + aluminum silicate refractory coating.

Filler: Optional vermiculite or fire-rated gravel (non-combustible).

2. Performance Metrics

ParameterJOESCO BarrierStandard BarrierFlame Spread Index20200+Heat Resistance (°C)600300Smoke Density4001,000+Reusability Post-Fire90% retainedNot reusable

3. Certifications

ASTM E84 (Surface Burning Characteristics)

NFPA 701 (Fire Tests for Flame Propagation)

EN 13501-1 (Euroclass B-s1, d0)

Industrial Applications: Where Fireproof Barriers Save Lives

Chemical Storage Zones Contain leaks & prevent fire escalation between tanks.

Power Plant Turbine Rooms Create firebreaks around high-temperature equipment.

Welding Workshops Isolate sparks and molten metal splatter.

Warehouse Partitioning Segment inventory to limit fire damage.

How to Order Fire-Safe Barriers

Risk Assessment: Share facility blueprints for hazard mapping.

Customization: Choose coatings (ceramic/silicone) and filler materials.

Fast Production: 10-day lead time for urgent orders.

Certified Delivery: Includes fire test reports and compliance manuals.

Limited Offer: Request a free fire safety audit and get 5% off your first order.

#Hesco Barriers

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nitinss · 1 month ago

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https://alluremerx.com/bauxite-ore

Bauxite is a vital raw material for aluminum production, widely used in industries such as aerospace, automotive, construction, and packaging. As a trusted Bauxite Exporter, AllureMerx ensures that every shipment meets international quality standards. Known as a reliable Bauxite Exporter, we supply high-grade bauxite ore, essential for refining into alumina and further processing into high-purity aluminum.

At AllureMerx, our bauxite undergoes strict quality control to meet the demands of global industries. As a leading Bauxite Exporter, we prioritize high alumina content, low silica, and optimal mineral composition in every consignment. With AllureMerx as your Bauxite Exporter, you receive raw materials that ensure efficient refining and superior end-product performance.

Our product range includes metallurgical-grade and refractory-grade bauxite, catering to diverse industrial needs. Whether you require bauxite for aluminum smelting, abrasives, cement, or chemical applications, AllureMerx serves as your go-to Bauxite Exporter. Trust our expertise as a global Bauxite Exporter to deliver material that enhances your production efficiency and meets your exact specifications.

Product Specifications

AllureMerx is a globally trusted Bauxite Exporter, supplying premium-grade bauxite sourced from verified mining partners and strategic reserves worldwide. Our high-quality bauxite is the preferred raw material for alumina refineries, aluminum smelters, and industrial applications. As a reliable Bauxite Exporter, we ensure every shipment meets stringent international standards to deliver optimal alumina content, consistency, and processing efficiency.

As a leading Bauxite Exporter, we offer bauxite with the following specifications:

Alumina (Al₂O₃) Content: Supplied by AllureMerx, a dependable Bauxite Exporter, our products contain 45% – 60% alumina for superior refining yield and quality.

Silica (SiO₂) Content: As your dedicated Bauxite Exporter, we maintain low silica levels (1% – 12%) to ensure efficient Bayer process performance.

Iron Oxide (Fe₂O₃) Content: Our bauxite typically contains 5% – 30% iron oxide, making it suitable for both metallurgical and refractory applications.

Moisture Content: Being a quality-focused Bauxite Exporter, we supply material with < 10% moisture to minimize handling and shipping inefficiencies.

Particle Size: Available in lumps (10mm – 300mm) or crushed forms (0-10mm), catering to diverse processing needs—reinforcing our role as a flexible Bauxite Exporter.

Applications: Used in aluminum production, cement, abrasives, and chemical industries—our bauxite meets varied industrial demands, positioning us as a versatile Bauxite Exporter.

Compliance: All shipments meet international standards such as ISO 9001, ASTM E291, and industry-specific refinery requirements, solidifying our reputation as a compliant and trusted Bauxite Exporter.

AllureMerx, as a premier Bauxite Exporter, not only supplies high-grade bauxite but also leverages its global logistics network to ensure cost-effective shipping and competitive pricing. We work closely with certified mines and established trading partners, enabling us to maintain a steady supply chain and reliable delivery schedules. This gives our clients confidence in choosing AllureMerx as their long-term Bauxite Exporter partner.

Whether you’re an alumina refinery, aluminum producer, or industrial manufacturer, AllureMerx is the Bauxite Exporter you can trust for quality, consistency, and seamless global trade solutions. With end-to-end handling, transparent documentation, and a commitment to sustainability, we stand apart as a preferred Bauxite Exporter in the international market.

Partner with AllureMerx—Your Trusted Global Bauxite Exporter. Contact us today for tailored bauxite sourcing solutions!

Delivery Timelines

We understand the importance of timely delivery to support our clients’ business needs. Our robust logistics network ensures reliable shipping to destinations across the globe. Below are the estimated delivery timelines:

Asia: 10–15 days

Europe: 20–25 days

North America: 25–30 days

Middle East & Africa: 15–20 days

Australia: 20–25 days

We provide real-time shipment tracking and dedicated support for seamless delivery to your location. Bulk and container shipments are handled efficiently to guarantee product integrity during transit.

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refshape · 3 months ago

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Enhancing Furnace Efficiency with High-Quality Linings – Refractory Shapes Pvt. Ltd.

Furnaces play a crucial role in industries like steel, cement, glass, and petrochemicals, where extreme temperatures are required for manufacturing processes. However, the efficiency and longevity of a furnace depend largely on the quality of its linings. At Refractory Shapes Pvt. Ltd., we specialize in providing high-performance furnace linings that offer superior thermal resistance, durability, and energy efficiency.

Why Furnace Linings Are Essential

Furnace linings are designed to withstand intense heat, chemical reactions, and mechanical stress inside high-temperature industrial furnaces. Their primary functions include:

🔥 Heat Insulation – Reducing heat loss and improving energy efficiency. 🛡 Protecting Furnace Structure – Preventing damage from extreme temperatures and chemical exposure. ⏳ Enhancing Furnace Lifespan – Extending operational life and reducing maintenance costs. ⚡ Optimizing Performance – Maintaining consistent temperatures for improved productivity.

Refractory Shapes Pvt. Ltd.: The Leader in Furnace Linings

At Refractory Shapes Pvt. Ltd., we provide customized furnace linings tailored to meet the specific requirements of various industries. Our products are engineered using high-quality refractory materials that ensure maximum thermal efficiency and durability.

Types of Furnace Linings We Offer

✔ Fireclay & High Alumina Bricks – Excellent thermal insulation and heat resistance. ✔ Castable Refractories – Easy-to-install monolithic linings with high strength. ✔ Ceramic Fiber Linings – Lightweight, flexible, and highly efficient insulation. ✔ Basic Refractories (Magnesia & Dolomite Bricks) – Ideal for high-temperature steel and cement kilns. ✔ Silica & Mullite Linings – Great for glass and petrochemical furnaces.

Industries We Serve

🏭 Steel & Metallurgy – Blast furnaces, ladles, and converters. 🏗 Cement & Lime Kilns – Rotary kilns and preheaters. 🔬 Glass & Ceramics – Regenerators and melting furnaces. 🛢 Petrochemical & Refineries – Thermal cracking and reforming units. ♨ Power Plants – Boilers and incinerators.

Why Choose Refractory Shapes Pvt. Ltd.?

✅ High-Performance Materials – Premium-quality refractory products designed for extreme conditions. ✅ Customized Solutions – Tailor-made linings based on industry needs. ✅ Energy Efficiency – Linings that minimize heat loss and reduce fuel consumption. ✅ Expert Installation & Support – Professional guidance and after-sales service. ✅ Cost-Effective & Durable – Long-lasting solutions that reduce downtime and maintenance costs.

Upgrade Your Furnace with the Best Linings!

At Refractory Shapes Pvt. Ltd., we are committed to delivering the best refractory solutions for industrial furnaces. Whether you need new furnace linings or replacement materials, our team is here to help.

Visit Us https://refshape.com/blogs/mastering-the-heat-the-unparalleled-excellence-of-refshape-furnace-linings/

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free-kaze · 8 months ago

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Environmental Impact and Benefits of Ultrasonic Oxidative Desulfurization in Oil Refineries

The refining of crude oil into various petroleum products is a crucial component of modern industrial economies. However, the traditional desulfurization processes used in oil refineries can have significant environmental impacts. Ultrasonic oxidative desulfurization (UOD) offers a promising alternative that can reduce these impacts while improving fuel quality.

Traditional Desulfurization Methods and Their Environmental Concerns

Traditional desulfurization methods, such as hydrodesulfurization (HDS), involve treating the oil with hydrogen gas under high pressure and temperature. While effective, these processes can have several environmental drawbacks:

High Energy Consumption: HDS requires significant amounts of energy, contributing to greenhouse gas emissions.

Hydrogen Consumption: The process consumes large quantities of hydrogen, which can also be energy-intensive to produce.

Wastewater Generation: HDS can generate wastewater containing sulfur compounds that need to be treated before discharge.

The Benefits of Ultrasonic Oxidative Desulfurization (UOD)

UOD is a relatively new technology that offers several advantages over traditional desulfurization methods:

Lower Energy Consumption: UOD requires significantly less energy than HDS, reducing greenhouse gas emissions.

No Hydrogen Required: UOD does not require hydrogen, eliminating the associated energy consumption and environmental concerns.

Mild Operating Conditions: UOD operates under milder conditions, reducing the risk of equipment failure and improving safety.

Higher Sulfur Removal Efficiency: UOD can achieve higher sulfur removal rates than HDS, especially for refractory sulfur compounds.

Reduced Wastewater Generation: UOD generates less wastewater, and the wastewater produced is often easier to treat.

How UOD Works

UOD involves the use of ultrasonic waves to enhance the oxidation of sulfur compounds in the oil. This process is typically carried out in the presence of a catalyst and an oxidizing agent. The ultrasonic waves create cavitation bubbles that collapse, generating intense localized heat and pressure. This helps to accelerate the oxidation reaction and improve sulfur removal efficiency.

Environmental Impacts of UOD

While UOD offers significant environmental benefits compared to traditional desulfurization methods, it is important to consider its potential impacts:

Catalyst Use: The use of catalysts in UOD can have environmental implications, depending on the type of catalyst and its disposal.

Oxidizing Agent Use: The choice of oxidizing agent can also impact the environment. For example, hydrogen peroxide is a common oxidizing agent that is relatively environmentally friendly.

Noise Pollution: The operation of ultrasonic equipment can generate noise pollution. However, proper noise mitigation measures can be implemented to minimize this impact.

Overall, ultrasonic oxidative desulfurization offers a promising solution for reducing the environmental impacts of oil refining. By lowering energy consumption, eliminating the need for hydrogen, and improving sulfur removal efficiency, UOD can contribute to a more sustainable future for the petroleum industry.

#Ultrasonic Oxidative Desulfurization

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antslabin · 1 year ago

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Graphite crucibles for high-temperature melting and casting processes

You've sourced premium metal ingots, readied industrial furnaces, and prepared all patterns for today's high-stakes alloy casting run. Yet one humble piece still remains crucial for transforming raw materials into flawless final parts safely. Enter the graphite crucible – your molten metal's temporary containment chamber guiding castings from hellish melting temperatures to solidified masterpieces.

Graphite crucibles serve as inert holding vessels throughout high-heat processing of cast iron, steel, brass, bronze, aluminum and more within foundries, mills, refineries and workshops globally. Their unique material properties keep reactive metals isolated while allowing precise heat transfer and consistent quality results over countless pour cycles.

Learn why no high-temperature foundry process operates optimally without the reliable protection, purity and performance of strategically selected graphite crucibles withstanding white-hot extremes.

Graphite Crucibles: Critical Design Factors

Not just any old clay pot suffices for melting metals searing past 3000°F. Graphite qualifies as the premier material handling molten liquid containment thanks to merging key physical attributes:

Extreme temperature resistance over 5600°F

Non-reactive and contaminant free

High thermal conductivity and low porosity

Mechanical durability even at peak temps

Simple machinability into precise shapes/sizes

From initial charge to final casting, graphite crucibles facilitate clean, controlled melting processes by insulating high temperatures within their compact carbon cylindrical forms. Their unique chemical inertness segregates 100% pure metal alloy contents from harsh furnace conditions.

Alongside hardiness though, graphite crucibles must demonstrate precise thermal properties in order to:

Promote optimal distribution of applied heat energy throughout molten material for consistent melt quality

Achieve target "drain temperatures" for uniform liquid viscosity at pour time

Support controlled directional solidification of final castings into parts free from defects

An improperly designed graphite crucible leads to temperature gradients, cold shuts, shrinkage voids and other nasty metal casting flaws. But with engineering optimized for specific project variables, these humble carbon containers enable pristine casts.

Choosing The Right Graphite Crucible for Your High-Heat Applications

Numerous custom graphite crucible formulations and specialized geometries exist to match different metallurgy processes:

Clay-Graphite Composites - Clay-bonded creations combine graphite with additives like silicon carbide or zirconium silicate for improved mechanical strength and chemical corrosion resistance under aggressive specialty alloy conditions.

Semi-Permanent Crucible Linings - High-density graphite or resin-bonded carbon liners armor internal melting vessel surfaces to extend depletion lifecycles amid continual heating/cooling cycles.

Lab Scale Crucibles - Precise crucible cavity shapes, diameters and volumes accommodate metals research, assaying, and small batch casting needs requiring analytical process control.

Mass Production Crucibles - Larger capacity and distinct pouring funnel/leg designs ensure reliably defect-free fills of die cast parts, permanent mold castings and other high-volume output runs.

Collaboration with knowledgeable graphite component engineers ensures selecting ideal containment solutions balancing thermal properties against project budgets, safety requirements and performance goals.

Other Essential Graphite Crucible Use Considerations

Beyond custom construction, graphite crucible optimization requires attention to details like:

Preheating Procedures - Extremely gradual warmup cycles prevent thermal shock cracking and extend refractory life. Digital instrumentation strictly controls heating ramp rate and staging.

Protective Glazes - Special anti-wetting coatings deter excessive molten metal adhesion while enabling faster pouring and reduced waste leftover.

Alloying Atmosphere - Sealed-off crucible covers regulating furnace back-pressure/vacuum conditions prevent metal oxidation and accommodate reactive/hygroscopic ingredients.

Safe Extraction - Custom tong assemblies, pouring rings/lugs and rigging mechanisms ensure proper positioning for all pour points through potentially violent temperature swings.

Proper training covering graphite crucible care, handling best practices and compliance with OSHA and EPA regulations remains essential for a safe, efficient high-heat casting facility.

The Future of Graphite Crucible Innovation

Throughout history, breakthroughs in alloy casting and metallurgical compounding techniques fueled humanity's technological progress from the Bronze Age through the Industrial Revolution. Today, modern graphite crucibles make possible the most precise, cleanest, most energy-efficient metal processing ever achieved. Looking ahead, graphite-based refractory advancements aim to:

Further improve temperature scale capabilities

Cut processing costs through extended duty cycles

Open new specialty alloy formulation possibilities

Facilitate recycling of spent refractories into new crucibles

Scale down batch sizes for 3D printed part production

With alchemy-quality control, graphite crucibles remain vital enablers pushing the boundaries of cast-parts complexity. These enduring carbon workhorses underpin humanity's quest to continually melt, meld, and manifest amazing new engineered metal materias visions through mastery of high-temperature liquid containment.

Graphite Crucibles for High-Temperature Melting and Casting FAQs

Q: What temperature range can graphite crucibles withstand?

A: Pure graphite crucibles safely handle molten materials exceeding 5600°F (3000°C) during melting/casting processes while averting alloy contamination concerns. More temperature headroom exists with specialty composite formulations.

Q: How long do graphite crucibles typically last before requiring replacement?

A: With proper preheating procedures and care, high-quality graphite crucibles achieve 50-100 pour cycles on average depending on the specifics of the application. For maximum duty, high-density graphite or resin-bonded liners armor internal furnace vessel surfaces.

Q: Are graphite crucibles difficult to clean or maintain?

A: Wiping out any remaining solidified material and gently brushing away slag helps extend graphite refractory life. Avoid physically scraping or gouging graphite surfaces though. Strict control of heat cycling rates also prevents cracking/dusting damage between uses.

Q: Why use graphite over alternative refractory compositions?

A: Few materials match graphite's combined thermal conductivity, temperature resistance, chemical inertness and ability to be machined into precise melt cavity shapes. Silica, alumina, magnesia and other ceramics remain less versatile for demanding melting/casting regimes.

Amid intensifying global competition and quality standards governing cast metal parts production, graphite crucibles provide a time-tested, reliable containment solution facilitating consistent high-temperature material performance. From superior materials selection to optimized designs and proper handling procedures, an experienced graphite component supplier stands as your strongest ally advancing molten metal process success.

#Graphite Crucibles

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refractoryshapes · 3 months ago

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Enhance Industrial Efficiency with High-Quality Refractory Castables from RefShape

In industries where extreme temperatures are a norm, the right refractory materials are crucial to ensuring durability, energy efficiency, and operational safety. Refractory Castables are one of the most versatile solutions for high-temperature environments, providing excellent heat resistance and structural integrity. At RefShape, we specialize in manufacturing high-performance refractory castables tailored to meet the unique demands of industries such as steel, cement, power plants, and petrochemicals.

What Are Refractory Castables?

Refractory Castables are monolithic, cement-based materials designed to withstand high temperatures, thermal shocks, and chemical corrosion. Unlike traditional fire bricks, castables can be molded or poured into various shapes and structures, making them ideal for lining furnaces, kilns, and other high-temperature equipment.

Advantages of Using RefShape’s Refractory Castables

1. Exceptional Thermal Resistance

RefShape’s refractory castables can withstand extreme temperatures exceeding 1800°C, ensuring long-lasting performance in high-heat environments.

2. High Mechanical Strength

Our castables provide excellent compressive strength and abrasion resistance, making them perfect for heavy-duty industrial applications.

3. Easy Installation & Customization

Unlike pre-formed bricks, refractory castables offer easy application—they can be cast, pumped, or gunned to fit any furnace or structure, reducing downtime and labor costs.

4. Chemical & Thermal Shock Resistance

Industries dealing with rapid temperature fluctuations and aggressive chemical environments can rely on RefShape’s castables for superior resistance to thermal shocks and chemical attacks.

5. Energy Efficiency & Cost Savings

With low thermal conductivity and high insulation properties, our castables help reduce heat loss and energy consumption, leading to significant cost savings over time.

Types of Refractory Castables We Offer

At RefShape, we manufacture a diverse range of refractory castables to cater to different industrial needs:

Conventional Castables: Suitable for general-purpose applications in moderate to high-temperature zones.

Low Cement Castables (LCC): Offer higher density, improved thermal resistance, and lower porosity for superior durability.

Ultra-Low Cement Castables (ULCC): Provide enhanced mechanical strength and resistance to corrosion, making them ideal for aggressive industrial conditions.

Insulating Castables: Designed for heat retention and energy efficiency, commonly used in furnaces and kilns.

Self-Flow & Pumpable Castables: Allow for easier application in complex or hard-to-reach areas.

Industries That Benefit from RefShape’s Refractory Castables

Steel & Metallurgical Plants – Used in blast furnaces, ladles, and tundish linings.

Cement Industry – Ideal for kilns, preheaters, and burner pipes.

Power Plants – Essential for boilers, chimneys, and incinerators.

Petrochemical & Refineries – Suitable for reactor linings and catalytic cracking units.

Glass & Ceramic Industry – Helps maintain high-temperature stability in furnaces and kilns.

Why Choose RefShape for Your Refractory Needs?

At RefShape, we prioritize quality, innovation, and customer satisfaction. Our refractory castables are engineered with advanced formulations and rigorous testing to ensure unmatched performance and durability. With a team of experienced professionals, we provide customized solutions, on-time delivery, and expert technical support for all your refractory needs.

Get the Best Refractory Castables with RefShape

If you're looking for high-quality, durable, and cost-effective refractory castables, RefShape is your trusted partner. Our products are designed to maximize efficiency, reduce maintenance costs, and improve operational safety in extreme heat environments.

Contact us today to learn more about our refractory castables and get a customized solution for your industry

Visit Us https://www.refshape.com/products/castables/

#Refractory Castables

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ecmachinesindia-blog · 6 years ago

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Gita refractories has a spread of merchandise to fulfill the Refractories used in steel plants. Our monolithic range of merchandise locates programs in one of a kind zones within the rotary kiln – tip casting and in allied equipment like cyclones, smoke chamber.

https://gitarefractoriess.blogspot.com/2019/01/reasons-why-refractory-for-steel.html

#Refractory for Refinery #Refractory for Refinery in India #Refractory for Steel industry #Refractory for cement #Refractories for steel industries #refractories used in steel plants #refractories for cement industry #Refractory in India #Refractory Manufacturers

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96thdayofrage · 4 years ago

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Just a theory: the Pan-Africanists who hate #ADOS don’t hate #ADOS because of the latter people’s actual politics. Pan-Africanists hate #ADOS because the people who are involved in that movement are pointing out something that no one else will: that Pan-Africanism in 2021 feels like a response to a question that basically no one really even asks anymore. That for all of their grand pronouncements—the epic and almost mythic sense of their project’s historical certainty—it’s becoming harder and harder to ignore how Pan-Africanism today just sort of feels in a lot of ways like the soggy nub of a joint being passed around at a dwindling party.

Think about it. Does the strangely visceral opinion about #ADOS held and oft expressed by Pan-Africanists really spring from the former’s politics? Yeah? Really? Well, what is it about the #ADOS political agenda specifically that they so hate? Is it that they would like the U.S. government to continue holding onto the trillions of dollars that it owes these people? Is it that they approve of chemical plants and refineries and waste dumps being strewn throughout black American communities in such a way that basically ensures those residents—simply by going outside and inhaling oxygen—contract what are 100% lethal diseases?

Or is it more likely that these people feel somewhere deep down that ADOS are like some kind of apparently lower form of oppressed subjects? And that, as such, they simply aren’t entitled to (or even capable of?) determining their own fate. Is it that they feel ADOS are being insubordinate and unmanageable and refractory and childish? Is it that in their assertion of agency and in their unsparing critique of the international movement that has patently failed them ADOS are hurting the feelings of many people who are—let’s be honest—way too emotionally overinvested in what’s mostly become just a quaint area of scholarship in our universities’ Africana Studies departments?

Just a theory! But doesn’t that seem like maybe a more honest answer?

Maybe those Pan-Africanists just hate that #ADOS has been quite successful in its reparations advocacy despite the movement’s refusal to conform to Pan-Africanist orthodoxy. And maybe it’s that these Pan Africanists have a faint notion that wounded pride isn’t exactly a sophisticated reason to critique #ADOS, so they instead invent some bullshit political pretext about how #ADOS’s advocacy is ‘ahistorical’ or totally reactionary or that those in the movement are corrupted by a strain of American exceptionalism or whatever.

That, anyway, is the basic defensive crouch position from which Broderick Dunlap writes his recent article, “A Dose of Reality for the ADOS Movement”. Adhering tightly to what is now the standard formula for a Pan-Africanist-Critique-of-the-#ADOS-Movement think piece, Dunlap’s essay is deeply fucking boring, stiff, and backward-gazing. It is obsessed with identifying earlier modalities and pointing out the completely obvious fact that #ADOS’s approach does not correspond with them (which, given the failure of those forms of identity and resistance to offer a bulwark against something as basic as inadequate sewage treatment, let alone unify an entire continent, well, duh!). But mostly Dunlap’s essay just aims to persuade the reader that reparations isn’t about money; that the real and most vital question that black people in America need to consider (black people who are forced to live under regularly occurring boil water advisories, mind you!)—is: “what will it take for Black folks to forgive the United States?”

It is true that, in the #ADOS political literature, this inquiry into the capacity of black people to forgive their victimizer is never raised. It also seems true that it is difficult to imagine a less radical and more insulting position than that, but, anyway, I digress. Thirdly, the suggestion that the only thing that #ADOS is concerned about is a simple transaction of overdue funds—after which they just sort of dust off their hands and raise a glass to victory while beginning to contemplate their new investment portfolios—is totally absurd, very easily disproven, and yet another example of the strong tendency among Pan-Africanists to feel that it is their right to define the #ADOS movement however they like.

But if the demand for monetary compensation to be paid to their group is what makes #ADOS a supposedly purely avaricious movement—if that is why they must be vilified and opposed and viewed as a blasphemous and debauched form of a black liberation movement—then what is one to make of similar demands for material redress made throughout the diaspora directly to that nation’s former colonizer? Here’s one such example involving Barbados’s demand for the United Kingdom to pay it reparations. Or when Hilary Beckles, chairman of CARICOM’s reparations commission explains that the organization of Caribbean member states is “focusing [our reparations claim] on Britain because Britain…made the most money out of slavery and the slave trade – they got the lion’s share,” where is the prolonged outrage from the Pan-Africanists who would otherwise decry the omission of other diasporic groups from this one-nation-in-the-crosshairs look at who owes who what? Why don’t the people making the argument for those reparations get accused of merely wanting “crumbs” from the old imperialistic British pie or whatever? Again, we are asked to believe that the Pan-Africanist antipathy toward #ADOS is rooted in a fundamental political disagreement, or like some inviolable set of internationalistic beliefs. But when demands that are analogous to those of #ADOS receive effectively none of the hostility and outright disdain that the #ADOS’s demand for reparations appears to singularly attract from the rest of the diaspora, it sure becomes hard not to see a more cynical motivation at the core of the their ‘critique’ of the movement’s political aims.

Here’s what I think: I think that the refrain of reparations not being about money is a slogan that is 100% designed to sheepdog would-be serious reparations advocates into supporting business as usual forever here in America. I think once you say something like that you have been brought right into the Democratic Party’s orbit and the DNC will make short work of turning your little proclamation of righteousness and purity or whatever the fuck it is into a feel-good campaign of money-free ‘justice.’ I think the accusation that monetary reparations for ADOS are viewed by that group not as the seeds to self-determination but rather as the harvest itself is a lie concieved in malice and spite—that it is a mischaracterization that strives to bastardize a project that has only ever argued the need for a significant restructuring of the (highly group-specific!) maldistribution of wealth in America before their group could ever meaningfully participate in any kind of internationalism. But what I really can’t account for though is why ADOS saying that activates some serious lizard brain shit in a whole lot of people. Or why those people apparently feel the need to gussy up that brute emotional response in some bogus political principle that they can’t really criticize without hypocrisy: it is OK for CARICOM to explicitly exclude ADOS from their reparations claim against imperial powers (and merely refer them to another organization trying to make additional pecuniary arrangements for Caribbeans), but it is a cause for moral outrage when #ADOS tries to take their group’s case to the U.S. government? I don’t know. That sort of unevenness of application strikes me as people who are motivated way less by actual ideas and more by the people themselves who are doing what they’re doing. And what are ADOS even doing that’s so totally unconscionable anyway? Turning to one another and becoming passionately invested in their shared experience instead of performing a committment to something that is no longer really a relevant force in the world but which will get them meaningless approval by lots of strangers? Again, I don’t know. It just seems like a lot of the time that what governs opinion about #ADOS involves a lot more high school lunchroom behavior than what those people would like us to believe.

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salesbitumen · 4 years ago

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Bitumen in road construction

Bitumen in road construction Bitumen in road construction means black adhesives used in road construction, which include bitumen and tar materials. The main property of bitumen is that it sticks the stone grains together and turns them into a single body. Bitumen is a black body made of a large number of hydrocarbons.

Pure bitumen is solid or semi-solid at ambient temperature and is liquefied by heat. Bitumen dissolves in mineral oils and solvents such as carbon sulfide, carbon tetrachloride and ethylene trichloride. Tar, which is black but brown in color, is obtained by distilling gases from heating coal, wood, and schist rocks. This substance is called raw tar and is obtained by refining that tar. Tar is produced in very small quantities in Iran and its use in road construction works is not common in the country. Types of bitumen There are two main types of bitumen used in road construction. If it is obtained from a mine, it is called natural or mineral bitumen, and if it is obtained from the refining of crude oil, it is called petroleum bitumen or refinery. Petroleum bitumen should be used in road construction. If the use of mineral bitumen is in the desired projects, the mixing ratio of petroleum or mineral bitumen should be specified in the private technical specifications.

Petroleum bitumens Bitumens obtained from crude oil refining are divided as follows according to the type and conditions of its use in road construction and other industrial uses.

Pure bitumen Bitumens that are obtained directly from the refinery vacuum in the distillation tower or briefly exposed to the aeration process are called pure bitumens. These bitumens should be homogeneous and free of water and should not foam at 176 degrees Celsius. Pure bitumen deforms into a thick, watery liquid due to pressure and heat, and is elastic and springy at low temperatures.

Soluble bitumen Soluble bitumen, or back bitumen, is obtained by dissolving pure bitumen in solvents or petroleum oils. The type and quality of soluble bitumen depends on the quality of the original pure bitumen, the type and amount of solvent. The higher the amount of petroleum solvents in the bitumen solution, the greater its fluidity. Usually, the percentage of solvent used in soluble bitumens varies from 20 to 50%. Soluble bitumen is used in road construction for surface coatings, infiltration, surface asphalt, cold factory asphalt or on-site mix. Soluble bitumens are divided into the following three groups according to the setting speed and the type of solvent.

Instant soluble bitumens If gasoline is used to dissolve pure bitumen, dissolved bitumen is called quick-setting. Because the solvent in the bitumen evaporates shortly after the consumption of bitumen and the main bitumen remains. Quick bitumen is classified into four types in terms of RC-70, RC-250, RC-800, RC-3000.

Solution bitumen Slow bitumen is made by dissolving pure bitumen in kerosene, which is slower and longer than gasoline. Slab contraction joints should intersect at the openings for columns, and should intersect at the openings for columns, at a minimum of 30 to a maximum of 6,000 cm.

Delayed bitumen solution In addition to dissolving pure bitumen in refractory oils and petroleum solvents, such as diesel or black oil, retardant soluble bitumens can be obtained directly from the distillation of crude oil, such as pure bitumen, from which solvent oils have not yet been separated. It takes a long time for these bitumens to fully set after consumption. In fact, retarded bitumens do not evaporate under normal climatic conditions, but undergo molecular deformation that is relatively gradual and long.

Blown bitumen Pure bitumens are pressurized at 200 to 300 ° C to combine the hydrogen atoms in the bitumen molecules with oxygen in the air, resulting in polymerization reactions that produce heavier hydrocarbons with lower penetration and softer points than bitumen. Have an initial net.

Blowed bitumen is not widely used in road construction. These bitumens are used to fill cracks in concrete pavements and to fill joints in concrete surfaces. The elasticity of blown bitumens is usually increased by the use of special chemical additives, and this condition remains constant even at low temperatures where pure bitumen becomes brittle. This type of blown bitumen, which is somewhat similar to rubber, is used to cover the floor of water pipes.

Functional bitumens Functional classification for bitumen selection in road construction has been developed by SHRP. In this classification, which is based on recognizing the behavior of bitumen and its functional characteristics, with the characteristics of resistance to deformation, resistance to cracking due to cold, resistance to cracking due to fatigue, prediction of how hard bitumen in the asphalt plant When preparing the asphalt mixture, how the bitumen hardens over time and with the tests specified in the specifications, and the appropriate bitumen according to the temperature of the project site, traffic, loading speed and geographical location selected It becomes.

Bitumen type and traffic conditions Traffic conditions including the type and amount of heavy traffic, how to load (fast, slow or static loading) and the total number of equivalent axes of 80 kN and traffic are effective in choosing the type of bitumen in each project. In general, the heavier the traffic, the denser and more directed it is, and the steeper and more steep the slopes and the more exposed to the intense sun, the harder the bitumen is used.

Based on SHRP research, bitumen consumption is determined by the condition that the asphalt mixture is under rapid loading. In slow loading mode, such as traffic at intersections, toll booths, crossing steep and long slopes, and generally traffic was slow and controlled

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vaiswr · 2 years ago

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Ultrafiltration Membranes Market Size Worth USD 6.8 Billion in 2030

The global ultrafiltration membranes market size is expected to reach USD 4.1 Billion in 2021 and register a revenue CAGR of 5.7% over the forecast period, according to latest analysis by Emergen Research. Steady ultrafiltration membranes market revenue growth can be attributed to rising demand for membrane filtration in municipal water treatment facilities as it allows reduction in chlorine use during final disinfection, which is especially beneficial for lengthy water distribution network, where water quality must be consistently maintained. Membrane filtration, particularly ultrafiltration, is being used to improve and optimize disinfection of water and biologically treated wastewater, as ultrafiltration acts as a barrier for viruses, bacteria, and protozoa. Steady revenue growth of the market can also be attributed to rising focus on ultrafiltration process for treating secondary effluents comprising a wide range of pollutants such as dissolved inorganics, biodegradable & refractory organic compounds, suspended & colloidal matter, and oils, produced in refineries. Ultrafiltration membranes are also used to remove contaminants in effluents so as to recycle used water for various other critical operations in refineries.

#Ultrafiltration Membranes Market

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blueweave8 · 3 years ago

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Adsorbents Market Outlook, Insight, Report 2022-2028

A study, recently conducted by the strategic consulting and market research firm BlueWeave Consulting, revealed that the global adsorbents market was worth USD 3.9 billion in 2020 and is further projected to reach USD 5.9 billion by 2027, at a CAGR of 6.0 % during the forecast period (2021-2027). With a growing range of advanced applications, the global adsorbent market is thriving. Innovations in oil & gas processing and socio-economic advancements, including the increasing use of adsorbents in maintaining purity requirements in numerous applications and environmental concerns, are driving the market's growth. Adsorbents are versatile and ideal for different industry verticals such as biofuel, oil & gas, pharmaceutical, nuclear, automobile, construction, chemicals, refrigeration, and petrochemicals.

Denitrogenation/Desulfurization Technology is Creating Immense Opportunities for the Market

Refineries are being forced to handle heavier stocks due to rising demand for distillate fuels and decreasing supplies of lighter, easier-to-process crude. The significant nitrogen and sulfur concentrations in these stocks are the main issues encountered during processing. These stocks contain nitrogen and sulfur oxides when burned, posing substantial environmental risks. The conventional methods for eliminating organic nitrogen/sulfur compounds from liquid fuels in refineries worldwide include hydrogenation and hydro-sulfurization employing hydro-treating catalysts. High temperatures, high pressure, and hydrogen consumption are typical requirements for these processes. The existing hydro-desulfurization process removes easy sulfur compounds, not the refractory sulfur compounds found in liquid fuels. Furthermore, while nitrogen molecules are not regulated, they compete with sulfur compounds for active sites on catalysts in the traditional process. As a result, nitrogen compounds should be eliminated to the greatest extent possible. At room temperature and atmospheric pressure, the adsorbent material is designed to remove both nitrogen and sulfur compounds without hydrogen selectively. Refineries will be able to generate certified liquid fuels at a reasonable cost using this method. This technology has the potential to set new standards in the adsorbents market in the upcoming years.

Global Adsorbents Market: By Type

Based on types, the global adsorbents market is categorized into molecular sieves, activated carbon, silica gel, activated alumina, and others. Molecular Sieves is likely to be the fastest-growing type segment during the forecast period. The increased use of adsorbents in petroleum refining is responsible for this segment's rise. Molecular sieves are frequently used in the petroleum sector, particularly for purifying gas streams and the science lab for separating compounds and drying materials. 3A, 4A, 5A, and 13X are the four main types of molecular sieves. The chemical formula for the molecule determines the pore size of molecular sieves.

Impact of COVID-19

The global adsorbents market has been negatively affected due to the COVID-19 pandemic. Several industries have been affected by the outbreak, including the energy, chemical, construction, and air separation and drying industries. Building project materials, labor, and significant cost components have been severely affected by the pandemic. Moreover, several countries that manufacture adsorbents had to halt their production because of the pandemic. Most adsorbents are produced in Asia-Pacific and North America, which were hit hard by the virus. These challenges have caused a disturbance in the adsorbents market's supply chain, with many manufacturing units slowing down.

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Asia-Pacific Leads the Global Adsorbents Market

In 2020, Asia-Pacific held the highest share of the adsorbents market. The demand for adsorbents in the region is fueled by countries like China, Japan, and India. One of the major reasons driving the global adsorbents market is rapid industrialization, particularly in emerging economies such as China and India. Many industrial processes, such as the production of low sulfur fuels, use adsorbents to remove and control pollutants. They are widely used in numerous applications, from insulating glass windows to mercury removal in natural gas/crude oil wellheads. Adsorbents are an essential component of any specialized product manufacturing process. Since the region has huge market demand, the market is more active and competitive than in other regions. These factors are expected to enhance adsorbent demand in Asia-Pacific during the forecast period.

Competitive Landscape

Due to the presence of numerous players involved in the market, the global adsorbents market is moderately fragmented. In order to stay competitive, companies develop new products and engage in expansion and acquisition. Additionally, some of the leading players are increasing their global footprint by purchasing overseas producers.

Some key players in the global Adsorbents market are Arkema, Honeywell International Inc., Axens, Basf SE, Cabot Corporation, Clariant AG, W. R. Grace & Co.-Conn, Calgon Carbon Corporation, Zeochem, Jalon, Porocel, Zeolyst International, Haycarb Plc, Fuji Silysia Chemical, Ltd., AGC Chemicals Americas, Interra Global and other prominent players.

In September 2021, Shell and BASF announced theie plans of working together to promote the transition to a zero-emissions world. As part of their collaboration, the two firms investigated, de-risked, and deployed BASF's Sorbead Adsorption Technology for pre-and post-combustion applications in CCS. Shell uses Sorbead Adsorption Technology to dehydrate CO2 gas that is captured using Shell's carbon capture technologies such as ADIP Ultra or Cansolv.

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kings-research · 3 years ago

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Rising Demand of Alumina for Varied Utility to Boost Sales

Introduction

Aluminum Oxide, or Alumina, is a white crystalline chemical substance made mostly from the mineral bauxite. It's utilized in a wide range of advanced applications, such as anti-corrosion materials, wear and abrasion-resistant parts, and the electronics industry. Alumina is a cost-effective material with high quality properties such as high durability, brightness, low heat radiation, and high temperature stability.

The increased usage of aluminum oxide in the manufacture of porous ceramics has had a significant impact on alumina growth. In accordance with this, the rising demand for dental cements as well as industrial manufacturing processes is also operating as a crucial element that will boost alumina growth.

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COVID-19 Impact

Alumina is made from bauxite, which is a raw material. The COVID-19 epidemic has hampered bauxite mining, which has been labeled a national emergency by governments around the world. The market has been severely impacted by disruptions in bauxite production and supply to alumina refineries.

Spikes in COVID-19 infection rates resulted in lockdowns and shutdown of mining activities. Moreover, several industries such as Alumina stopped production due to lockdown protocols. As governments across the world are relaxing restrictions, it is projected that the pre-pandemic sales levels would be surpassed.

Key Developments

Due to its improved safety and performance, advanced aluminum materials are overtaking the automotive industry. Since lightweight materials improve fuel efficiency, worldwide automakers are switching their preferences to lighter materials in lieu of iron and steel components.

For instance, in 2020 itself, International Aluminum Institute (IAI) recorded 10,943.0 thousand metric tons of alumina production amid the surging COVID-19.

Refractories, ceramics, polishing, and abrasive applications are the most common applications for speciality aluminum oxides. Aluminum hydroxide, from which alumina originates, is used to make zeolites, coat titania pigments, and as a fireplace retardant/smoke suppressant in large quantities. Over 90% of the alumina, commonly referred to as Smelter Grade Alumina (SGA), is used in the Hall–Héroult process, which is used to assemble aluminum.

Also, Aluminum oxide has a number of advantages, including the ability to be produced in a range of forms, such as powder, sputtering targets, and tablets. Aluminum oxide can also be obtained in the form of nanoparticles. Aluminum oxide nanoparticles have a high tensile strength. Additionally, the particles have electric conductivity, are ductile, and can be employed to improve the strength of a variety of metals and alloys.

Competitive Landscape

Although rising demand from the automotive, construction, and packaging industries is likely to drive up aluminum demand, the global market is expected to face several constraints due to changing raw material prices and the availability of alternative materials. Yet, the competitive landscape is experiencing constant acquisitions, mergers, and expansions.

· Aluminum Corporation of China Ltd. (Chalco) began development on the second alumina refinery production line at Huasheng, China, in November 2020.

· Gränges AB, a Swedish rolled aluminum company, and Alcoa Corp, an American aluminum pioneer, have launched a collaboration in June 2021, focused at lowering the environmental effect of the aluminum value chain.

· Kaiser Aluminum Corporation had concluded its $670 million acquisition of Alcoa Warrick LLC in April 2021, which included all of the assets of the Warrick Rolling Mill, from Alcoa Corporation ("Alcoa").

Some prominent players of the market include:

· Alcoa Corporation

· Hongqiao Group

· Vedanta

· Cabot Corporation

· Aluminum Corporation of China (Chalco)

· Worsley Alumina

· Sasol

· Almatis

· Rusal

· Xinfa Group

· Rio Tinto

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Kings Research is a data proficient market research firm that specializes in fostering efficient insights that propels businesses. We specialize in providing business intelligence on product specific markets to gain insights on quantifiable data. And our aim is to be the development catalyst to our clients that deliver actionable insights.

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lucy20kart · 3 years ago

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The Furfural Market Is Divided Into Four Sections: Raw Material, Application, End User, And Region.

Furfural (C4H3OCHO) is a naturally occurring compound formed by dehydrating carbon sugars from the hemicellulose fraction of lignocellulosic biomass. Furfural is widely used as a solvent in a variety of operations and processes, including butadiene extraction and lubricating oils. It is also used in a variety of chemical extraction processes. The thriving construction industry is expected to benefit the global furfural market. Furfural is expected to be in high demand due to its use in a wide range of refractory materials, including ceramics, bricks, fibreglass, and composites. Furthermore, the ongoing depletion of fossil fuels is increasing demand for sustainable goods, which will most likely promote overall growth in the global furfural market.

The Furfural Market is divided into four sections: raw material, application, end user, and region. The market is segmented by raw material, which includes corn cobs, rice husk, sugarcane bagasse, and others. Furfuryl alcohol, solvent, and others are the application segments. The market is segmented by end user into petroleum refineries, agricultural formulations, paints and coatings, pharmaceuticals, and others. The market is divided into four regions: North America, Europe, Asia-Pacific, and Latin America and the Caribbean (Latin America, the Middle East, and Africa). Arcoy Industries Pvt. Ltd., Central Romana Corporation, Ltd., Hongye Holding Group Corporation, Illovo Group, KRBL Ltd., Lenzing AG, Penn A Kem LLC, Silvateam, Tanin Sevnica d.d., and Tieling North Furfural (Group) Co. Ltd. are the key players in the furfural market.