Found this dragon a while back off of Thingiverse, named Seven the dragon. Just realized my phone has a gif function so I made a stop motion of him moving. I printed him to protect my hoard of trinkets.

Books On Books Collection - Helen Yentus

On Such a Full Sea (2013) On Such a Full Sea (2013)Chang-rae Lee Jacket and slipcase designHelen YentusBook in slipcase. H23o x W150 mm; slipcase only, W110 mm. 368 pages. Edition of 500, of which this is #178. Acquired 1 October 2018. Photo: Riverhead Books and AIGA. Riverhead art director Helen Yentus and members of the MakerBot team designed this slipcase for Lee’s novel. An edition of 500,…

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Knock knock!

Who’s there?

ORANGE you glad to see our MakerBot 3-D printer in action???

Ultimaker Expands MakerBot's Commitment to 3D Printing for Education

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Second-Quarter Sees Mixed Results for 3D-Printer Market, as Inflation Concerns Dampen Purchases

HP Inc. Industrial 3D Metal printer. The second quarter of 2023 saw contrasting patterns in the shipments of Industrial 3D printers, according to the latest insights and research fro global market intelligence firm CONTEXT. Vendors in the East (such as China) saw strong year-on-year (YoY) growth, especially for shipments in China, while many Western vendors faced continuing reduction of capital…

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hmm...

Doing some example prints for my kiddos. #printing #3D #bulbasaur #makerbot #thingiverse https://www.instagram.com/p/B8busBKgEYo/?igshid=pqa326twjeqt

This day in history

NEXT WEEKEND (June 7–9), I'm in AMHERST, NEW YORK to keynote the 25th Annual Media Ecology Association Convention and accept the Neil Postman Award for Career Achievement in Public Intellectual Activity.

#15yrsago Canadian cinema fined $10,000 for privacy invasion over bag-search https://web.archive.org/web/20090529094117/https://www.ctv.ca/servlet/ArticleNews/story/CTVNews/20090525/cinema_lawsuit_090525/20090525

#10yrsago Majority of Americans think Snowden was right to leak https://www.darkreading.com/endpoint-security/a-year-later-most-americans-think-snowden-did-the-right-thing

#10yrsago The English Method: UK taught modern torture to Brazil’s dictators https://www.bbc.com/news/magazine-27625540

#10yrsago What’s the story with the Makerbot patent? https://memex.craphound.com/2014/05/30/whats-the-story-with-the-makerbot-patent/

#10yrsago NSA can’t find any emails from Snowden, then it can (convenient, no?) https://www.theguardian.com/world/2014/may/29/nsa-email-snowden-surveillance-internal-whistleblowing

#5yrsago How Mexican labor unions tried to rescue Freud from the Nazis https://thereader.mitpress.mit.edu/mexico-attempt-save-freud-nazis/

#5yrsago Wealth is correlated with greed, dishonesty and cheating — are these effects or a causes? https://www.thejournal.ie/readme/opinion-why-do-rich-people-lie-cheat-and-steal-more-than-those-on-low-incomes-4647197-May2019/

#5yrsago New Amazon patent application reveals “solution” to missed Alexa instructions: always on recording https://www.sciencealert.com/creepy-new-amazon-patent-would-mean-alexa-records-everything-you-say-from-now-on

#5yrsago How the “prosperity gospel” convinces poor people to give everything to grifty millionaire preachers https://www.bbc.com/news/stories-47675301

#5yrsago After viral Youtube denunciations, Germany’s establishment parties falter — so the ruling party’s leader faxed her colleagues demanding action https://www.techdirt.com/2019/05/30/german-political-leader-questions-youtubers-right-to-tell-fans-not-to-vote-her-party-urgently-summons-her-advisers-response-fax/

#1yrago Ian McDonald's "Hopeland": A novel so eerily good it almost made me angry https://pluralistic.net/2023/05/30/electromancy/#the-grace

Christmas 3D Print Ideas

Guide by Richard Hirst (Hirsty3D)

Featured designs: MakerBot, Bugman, EmbraceNext, KOZA Design

Read sum shit about Tumblr scaling back and the writing is on the wall. I remember when two Yahoo execs visited my old job at MakerBot after the acquisition and I told them “just don’t fuck it up”. They didn’t listen, of course… but, I mean, they were playing a losing hand anyway looking for profit from internet savvy misfits. Lasted longer than I expected though. If we are mutuals or ever spoke; if it doesn’t end up working out, you can always get at my email

simseezy@gmail

just lemme know who you are

3D printed t-rex skull

Model by Makerbot

Motherboard for 3D Printer Market 2025-2032

MARKET INSIGHTS

Global Motherboard for 3D Printer Market was valued at US$ 287 million in 2024 and is projected to reach US$ 614 million by 2032, at a CAGR of 9.7% during the forecast period 2025-2032. The U.S. market accounted for USD 58.3 million in 2024, while China is expected to reach USD 92.7 million by 2032. The 3.5 Inch segment dominated with 42% market share in 2024 and is projected to maintain leadership through 2032.

Motherboards for 3D printers are critical control units that manage printer operations including motor movements, temperature regulation, and communication interfaces. These specialized printed circuit boards (PCBs) feature microprocessor architectures optimized for additive manufacturing processes, supporting firmware like Marlin, Klipper, or Repetier. Key components include stepper drivers, thermal protection circuits, and expansion slots for additional functionality.

Market growth is driven by expanding adoption of industrial-grade 3D printing across aerospace, automotive, and healthcare sectors, requiring advanced motion control capabilities. The rising demand for open-source solutions and modular designs has prompted manufacturers to develop boards with enhanced connectivity options (WiFi, Ethernet, USB-C). However, supply chain disruptions in semiconductor components continue to pose challenges for production scalability. Leading players like BIGTREETECH and Makerbot are investing in silent stepper drivers and 32-bit ARM processors to address evolving customer needs for precision and noise reduction.

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Key Industry Players

Innovation Drives Market Leadership in the 3D Printer Motherboard Segment

The global motherboard for 3D printer market features a dynamic competitive environment dominated by specialized electronics manufacturers and emerging innovators. As of 2024, Maker Base maintains a leading position with approximately 18% market share, leveraging its extensive product range and robust compatibility with open-source 3D printing platforms. The company’s success stems from continuous firmware updates and community-driven development approach.

BIGTREETECH and Makerbot follow closely, jointly accounting for nearly 25% of global revenue. BIGTREETECH’s growth trajectory is particularly notable, with their SKR series motherboards gaining rapid adoption due to superior thermal management and silent driver technology. Meanwhile, Makerbot retains strong brand recognition in commercial segments through proprietary board solutions.

The market’s competitive intensity is increasing as Chinese manufacturers like HiLetgo and SainSmart expand internationally with cost-effective alternatives. These players are disrupting traditional pricing models while maintaining satisfactory performance benchmarks, particularly in the hobbyist segment where price sensitivity remains high.

Established semiconductor companies such as Atmel (now part of Microchip Technology) continue to influence the market through microcontroller innovations. Their ARM-based solutions power many third-party boards, creating a symbiotic relationship with motherboard manufacturers. This technological ecosystem fosters continuous performance improvements across price points.

List of Key 3D Printer Motherboard Manufacturers

Maker Base (China)

Atmel/Microchip Technology (U.S.)

Makerbot (U.S.)

Velleman (Belgium)

SainSmart (U.S./China)

Gikfun (China)

BIGTREETECH (China)

HiLetgo (China)

DFROBOT (China)

Lerdge (China)

7th Tech (China)

CBD-Tech (China)

Ray Land (China)

The competitive landscape shows clear geographic concentration, with Chinese manufacturers dominating volume production while European and American firms focus on premium and specialized applications. Recent developments include increasing integration of WiFi/Bluetooth capabilities and the emergence of AI-assisted calibration features in high-end boards. Market positioning increasingly depends on software ecosystem integration as much as hardware specifications.

Segment Analysis:

By Type

3.5 Inch Segment Leads Due to Compatibility with Mid-Range 3D Printers

The motherboard market for 3D printers is segmented based on type into:

3.5 Inch

Subtypes: RAMPS-based, 32-bit ARM-based, and others

4.5 Inch

Subtypes: Smoothieware-based, Duet-based, and others

Others

Includes custom-sized and proprietary motherboard designs

By Application

Commercial Printer Segment Dominates with Growing Industrial Adoption

The market is segmented based on application into:

Commercial Printer

Used in professional-grade and industrial 3D printers

Residential Printer

Designed for hobbyist and consumer-grade 3D printers

By Technology

32-bit ARM-Based Segment Grows Rapidly Due to Superior Processing Power

The market is segmented based on technology into:

8-bit Controllers

32-bit ARM-based Controllers

FPGA-based Controllers

Others

By Connectivity

Wi-Fi Enabled Segment Shows Strong Growth with IoT Integration

The market is segmented based on connectivity options into:

USB-only

Wi-Fi Enabled

Ethernet-enabled

Dual Connectivity (USB+WiFi)

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FREQUENTLY ASKED QUESTIONS:

What is the current market size of Global Motherboard for 3D Printer Market?

-> The global Motherboard for 3D Printer Market was valued at US$ 287 million in 2024 and is projected to reach US$ 614 million by 2032, at a CAGR of 9.7%.

Which key companies operate in Global Motherboard for 3D Printer Market?

-> Key players include Maker Base, Atmel, Makerbot, Velleman, SainSmart, Gikfun, BIGTREETECH, and HiLetgo, among others.

What are the key growth drivers?

-> Key growth drivers include rising adoption of 3D printing technology, increasing demand for customized products, and advancements in additive manufacturing.

Which region dominates the market?

-> North America currently leads the market, while Asia-Pacific is expected to witness the highest growth rate during the forecast period.

What are the emerging trends?

-> Emerging trends include development of compact motherboard designs, integration of wireless connectivity, and improved thermal management systems.

Related URL

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Whether you’re a beginner or experienced in 3D printing, this guide will help you seamlessly manage your 3D printing workflow, allowing you to prepare your 3D models from anywhere using cloud technology. Learn how to upload, slice, and send your prints to your MakerBot printer, all from the comfort of your web browser!

FDM 3D Printer Market (2025-2032)

💡 Drivers: ➡️ 🌟 Growing adoption of 3D printing in manufacturing and prototyping ➡️ 🌟 Increasing demand for cost-effective and high-quality printing solutions ➡️ 🌟 Rising use of FDM technology in various industries like automotive, aerospace, and healthcare

🏢 Key Players: ➡️ 🏢 Stratasys Ltd. ➡️ 🏢 Ultimaker ➡️ 🏢 MakerBot (a subsidiary of Stratasys) ➡️ 🏢 BCN3D Technologies ➡️ 🏢 Prusa Research

📖 Explore insights: https://www.globalmarketstatistics.com/market-reports/fdm-3d-printer-market-11584

#3DPrinting #FDMTechnology #ManufacturingInnovation #MarketTrends

Fused Deposition Modeling 3D Printing Market: Key Trends and Forecasts for 2031

InsightAce Analytic Pvt. Ltd. announces the release of a market assessment report on the "Global Fused Deposition Modeling 3D printing Market – (By Type (Stereolithography, Polyjet Printing, MultiJet Printing, Colorjet Printing, Digital Light Processing, Selective Laser Sintering), By Application (Consumer, Automotive, Aerospace & Defence, Healthcare, Fashion & Aesthetics)), Trends, Industry Competition Analysis, Revenue and Forecast To 2031."

According to the latest research by InsightAce Analytic, the Global Fused Deposition Modeling 3D printing Market is predicted to grow with a CAGR of 29.6% during the forecast period of 2024-2031.

Get Free Access to Demo Report, Excel Pivot and ToC: https://www.insightaceanalytic.com/request-sample/2540

The FDM (Fused Deposition Modeling) 3D printing market is experiencing robust growth driven by its versatility, cost-effectiveness, and broad applicability across various industries. FDM, a form of additive manufacturing, utilizes the process of melting and extruding thermoplastic materials in a layer-by-layer fashion to fabricate three-dimensional items according to digital blueprints. This technique is preferred due to its capability to create practical prototypes, personalized components, and even final products with exceptional accuracy and resilience. Key factors fueling market expansion include the increasing adoption of 3D printing for speedy prototyping and production, particularly in the automotive, aerospace, healthcare, and consumer goods sectors. The technology's capability to reduce lead times, optimize supply chains, and lower production costs further enhances its appeal. Moreover, advancements in material science have diversified the range of materials compatible with FDM printers, enhancing their suitability for a wider array of applications. Furthermore, with the ongoing advancement and increasing popularity of technology, the FDM 3D printing market is ready for further progress and acceptance in various industries that are looking for effective and flexible manufacturing solutions. Furthermore, with the ongoing advancement and increasing popularity of technology, the FDM 3D printing market is ready for further progress and acceptance in various industries that are looking for effective and flexible manufacturing solutions.

List of Prominent Players in the Fused Deposition Modeling 3D printing Market:

ExOne

EOS GmbH

Stratasys Ltd

XYZprinting, Inc.

Optomec

Voxeljet AG

Organovo Holdings, Inc.

EnvisionTEC

3D Systems

Markforged

Bambu Lab

Shenzhen Creality 3D Technology Co., Ltd.

ELEGOO

MakerBot

UltiMaker

INTAMSYS TECHNOLOGY CO., LTD.

Prusa Research a.s.

Flashforge

Expert Knowledge, Just a Click Away: https://calendly.com/insightaceanalytic/30min?month=2024-02

Market Dynamics:

Drivers-

The market is driven significantly by the rapid prototyping technique known as fused deposition modelling (FDM). This method facilitates the cost-effective and precise development of small functional components. Fused deposition modelling operates by utilizing a CAD/CAM-based design-specific blueprint, which is input into an FDM system. The system then directs design-specific instructions to the controller's head, ultimately extruding melted thermoplastic material to form the desired components. During the pandemic, there was a notable surge in demand for fused deposition modelling, particularly within the healthcare sector. This increase was primarily driven by the urgent need to prototype and produce moulds for medical equipment.

Challenges:

The restricted selection of materials that are compatible with FDM technology is a substantial obstacle. While advancements have expanded material options, FDM primarily supports thermoplastics, restricting its application in sectors requiring precise material properties such as high-temperature resistance or biocompatibility. Another challenge is the inherent limitations in printing resolution as well as surface finish compared to other 3D printing technologies like Stereolithography (SLA) or Selective Laser Sintering (SLS). This restricts FDM's suitability for applications demanding intricate details or smooth surfaces, such as in medical devices or aerospace components.

Regional Trends:

The North American fused Deposition Modeling 3D printing market is predicted to record a significant market share. North American FDM 3D printing market is characterized by continuous technological advancements, collaborations between industry players and research institutions, and increasing investments in R&D. These factors contribute to the favourable growth outlook, positioning North America as a key hub for FDM 3D printing innovation and adoption in the global market. Besides, APAC had a substantial share of the market. The expansion can be attributed to factors such as the burgeoning populations of countries such as India and China, accelerated urban development, and growing governmental support and collaborative efforts promoting technology adoption. Within the Asia-Pacific region, there is a notable rise in healthcare sector investments aimed at advancing medical equipment production, enhancing facilities, and improving infrastructure.

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Recent Developments

In March 2024, Stratasys Ltd. purchased Arevo's technology portfolio, which includes its Intellectual Property (IP) estate. Stratasys will gain access to important patents related to carbon fiber printing, strategies for enhancing Z-strength, and build monitoring enabled by artificial intelligence with this acquisition. Stratasys plans to expand the variety of manufacturing applications they provide to customers by incorporating this technology into their FDM 3D printing equipment.

In Sept 2023, ExOne and BMW showcased the utilization of ExOne's binder jet 3D printing technology by BMW. BMW has collaborated with ExOne since 2002. They utilized four ExOne Exerial sand 3D printers and intend to incorporate two additional ExOne machines in the future.

Segmentation of Fused Deposition Modeling 3D printing Market-

By Type:

Stereolithography

Polyjet Printing

MultiJet Printing

Colorjet Printing

Digital Light Processing

Selective Laser Sintering

By Application:

Consumer

Automotive

Aerospace & Defence

Healthcare

Fashion & Aesthetics

By Region-

North America-

The US

Canada

Mexico

Europe-

Germany

The UK

France

Italy

Spain

Rest of Europe

Asia-Pacific-

China

Japan

India

South Korea

South East Asia

Rest of Asia Pacific

Latin America-

Brazil

Argentina

Rest of Latin America

 Middle East & Africa-

GCC Countries

South Africa

Rest of Middle East and Africa

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About Us:

InsightAce Analytic is a market research and consulting firm that enables clients to make strategic decisions. Our qualitative and quantitative market intelligence solutions inform the need for market and competitive intelligence to expand businesses. We help clients gain competitive advantage by identifying untapped markets, exploring new and competing technologies, segmenting potential markets and repositioning products. Our expertise is in providing syndicated and custom market intelligence reports with an in-depth analysis with key market insights in a timely and cost-effective manner.

Как 3D-печать изменит производство

Можете ли вы представить себе мир, где новые гаджеты и детали автомобилей создаются не на заводах, а у вас дома? Или здания возводятся с помощью гигантских 3D-принтеров за считанные дни? Это не фантастика, а реальность, которая уже стучится в дверь. Как 3D-печать меняет производство, и что нас ждет завтра?

Мир на пороге новой эры

Кажется, 3D-принтеры — это просто инструмент для создания пластиковых игрушек и прототипов. Однако, что если это начало технологической революции, способной трансформировать каждую отрасль? Давайте разберемся. "Домашняя фабрика" Представьте, что вместо покупки деталей для ремонта вы просто скачиваете файл и печатаете его дома. Это кажется логичным и удобным, но насколько такая технология готова к массовому применению? "Глобальная печатная сеть" Другая гипотеза предполагает, что 3D-принтеры будут связаны в единую сеть, позволяя печатать все от мебели до запчастей для автомобилей в любом уголке мира. Однако как будет организована логистика и стандартизация?

Технологические прорывы: как это работает

3D-печать, или аддитивное производство, использует метод послойного создания объектов. Принтеры работают с различными материалами — от пластика до металла и даже органических веществ. Основные этапы: - Моделирование: Создание 3D-модели с помощью специализированного программного обеспечения. - Печать: Нанесение материала слой за слоем с высокой точностью. - Обработка: Завершающие операции для придания изделию необходимых характеристик. "3D-печать — это новая промышленная революция." — Питер Диамандис, основатель XPRIZE Foundation

Преимущества 3D-печати

Технология открывает перед производством множество возможностей: - Снижение затрат: Производство на 3D-принтере минимизирует отходы материалов. - Гибкость: Возможность быстро адаптировать производство под индивидуальные потребности. - Экологичность: Использование переработанных материалов снижает вред окружающей среде. Новые горизонты Сферы применения 3D-печати растут с каждым годом: - Медицина: Печать протезов, имплантов и даже органов. - Строительство: Создание зданий и мостов с использованием больших 3D-принтеров. - Космос: Производство оборудования и деталей для космических миссий прямо на орбите. "Потенциал 3D-печати практически безграничен. Всё зависит от нашего воображения." — Бри Петтис, сооснователь MakerBot

Какие вызовы нас ждут?

Несмотря на огромный потенциал, 3D-печать сталкивается с рядом сложностей: - Стоимость: Современные принтеры и материалы всё ещё дороги. - Стандартизация: Отсутствие общепринятых норм затрудняет массовое внедрение. - Этика: Возможность нелегальной печати оружия вызывает серьёзные опасения.

Будущее 3D-печати

Уже в ближайшие десятилетия мы можем ожидать: - Расширение доступности: 3D-принтеры станут такими же обычными, как смартфоны. - Новые материалы: Появление биоразлагаемых и сверхпрочных материалов. - Улучшение скорости: Устройства смогут печатать сложные изделия за считанные минуты.

Заключение

3D-печать — это не просто инструмент, а ключ к новому миру, где производство станет доступным каждому. Как сказал однажды великий мыслитель: "Будущее уже здесь, просто оно распределено неравномерно." — Уильям Гибсон Итак, готовы ли вы быть частью этой революции? Read the full article

What are the best STEAM lab solutions for schools in 2024? 

https://makersmuse.in/wp-content/uploads/2024/11/DSC_5390.NEF_-1-scaled.jpg

Imagine stepping into a classroom where students design robots, create 3D art, and code interactive stories all within a single space. This is the power of a modern STEAM lab. As STEAM education grows, schools must adapt to meet the needs of future-ready learners. Here are the top STEAM lab solutions for 2024, designed to inspire creativity, critical thinking, and collaboration. 

1. 3D Printing Technology 

3D printers have revolutionized STEAM labs by allowing students to bring their designs to life. Tools like Ultimaker S3 and MakerBot Sketch offer easy-to-use interfaces, making them ideal for schools. Enroll now 

Benefits: Teaches design thinking, problem-solving, and prototyping. 

Applications: Create models for engineering, architecture, or even biology. 

2. Robotics Kits 

Robotics fosters innovation and teamwork. Kits like LEGO Education SPIKE Prime and VEX Robotics cater to different age groups and skill levels. 

Benefits: Enhances coding and engineering skills through hands-on projects. 

Applications: Build and program robots to perform tasks or solve real-world problems. 

3. Virtual and Augmented Reality (VR/AR) 

Immersive learning experiences with tools like Google Expeditions or Meta Quest 3 enable students to explore science, history, and art in exciting new ways. 

Benefits: Makes abstract concepts tangible and engages learners visually. 

Applications: Explore the human body, visit historical sites, or simulate engineering challenges. 

4. Interactive Coding Platforms 

Platforms like Scratch, Tynker, and Code.org offer coding resources tailored to students from beginner to advanced levels. 

Benefits: Develops computational thinking and creativity. 

Applications: Create games, animations, and simulations that tie into STEAM subjects. 

5. Smart STEM Furniture 

Flexible furniture solutions like ErgoSpace Desks or Makerspace Storage Units optimize space for creativity and collaboration. 

Benefits: Supports different teaching methods and activities. 

Applications: Provide modular workstations for group projects, electronics, or art. 

6. IoT and AI Integration 

Incorporating IoT and AI tools like Arduino and Raspberry Pi teaches students about emerging technologies. 

Benefits: Prepares students for tech-driven careers. 

Applications: Develop smart devices or explore machine learning projects. 

7. Digital Fabrication Tools 

Laser cutters like Glowforge and C

NC routers bring precision manufacturing to classrooms. 

Benefits: Promotes creativity and advanced design skills. 

Applications: Produce detailed prototypes or custom art projects. 

Building a STEAM Lab That Inspires 

Creating a successful STEAM lab goes beyond just tools. Consider these key strategies: 

Customizable Spaces: Design labs that adapt to different subjects and group sizes. 

Accessible Resources: Ensure all students, regardless of skill level, can engage with the tools. 

Professional Training: Provide educators with training on using these technologies effectively. 

Invest in future-ready learning 

STEAM labs are the cornerstone of 21st-century education, equipping students with the skills they need to thrive. By incorporating these top solutions, schools can create dynamic learning environments that inspire innovation and foster lifelong learning. 

Take the leap into the future equip your school with the best STEAM lab solutions today!