Keynotes for #AMUG2023 have been announced!

On March 21, Robert Ducey of LAIKA Studios & Nicholas Jacobson of the University of Colorado's Anschutz Medical Campus will present on "Collaborations Between an Animator, an Architect, and a Surgeon: The Keys to Impactful Innovation in Medicine." This collaboration has resulted in innovative designs for pediatric epilepsy, cardiology, and cleft palate.

And on March 23, Max Haot, founder and CEO of Launcher, will present on "High-Performance, Low-Cost Liquid Propulsion Enabled by AM," sharing the breakthrough additive manufacturing innovations in Launcher's E-2 liquid rocket engine and the Orbiter space tug programs.

I used @adskfusion360 to design this nice Coffeeshop Bebop Leiden key tag. It is double-sided and look great in my opinion. Simple and clean how we like it. This one is printed on the Prusa i3 MK3S+ & MMU2S by @josefprusa in @filament_pm PETG. #3dprinting #3dprintingcommunity #3dprinter #3dprinted #3dprint #3dmodel #3dmodeling #3dp #autodesk #fusion360 #prusa3d #prusai3mk3s #mmu #filamentpm #petg #filaments #coffeeshopbebop #bebopleiden #maker #additivemanufacturing #de3dprintman (at Leiderdorp) https://www.instagram.com/p/Cn4jCx5NP44/?igshid=NGJjMDIxMWI=

Anfragen per E-Mail: [email protected] oder telefonisch unter: +49 176 82760278 #3dprinting #3dprinters #3dprint #3dprints #3d #3dmodel #technology #3dartist #3dprinter #impresion3d #myminifactory #3dprinted #3dcommunity #3dcad #3drendering #additivemanufacturing #stampa3d #prusa #engineering #thingiverse #anycubic #prusai3mk3 #3d打印 #impressao3d #innovation #filament #prusai3 #technologie #architecturalmodel (hier: Konstanz) https://www.instagram.com/p/Cg5IX4eKPsn/?igshid=NGJjMDIxMWI=

Explore GE Additive's range of high-quality meta powders, meticulously engineered for superior performance and precision in metal 3D printing. Discover how these powders are revolutionizing industries and driving innovation forward. Visit Imaginarium.io to learn more."

What is Additive Manufacturing?

Additive manufacturing is the technique of creating three-dimensional products from CAD models by layering on the material using digital data. 

Additive Manufacturing, previously known as rapid prototyping, and currently popular as 3D printing...

Read the full article here: https://www.paanduvapplications.com/what-is-additive-manufacturing

3D Polyamide Market Huge Growth in Future Scope 2024-2030 | GQ Research

The 3D Polyamide market is set to witness remarkable growth, as indicated by recent market analysis conducted by GQ Research. In 2023, the global 3D Polyamide market showcased a significant presence, boasting a valuation of US$ 115.41 Million. This underscores the substantial demand for 3D Polyamide technology and its widespread adoption across various industries.

Get Sample of this Report at https://gqresearch.com/request-sample/global-3d-polyamide-market/

Projected Growth: Projections suggest that the 3D Polyamide market will continue its upward trajectory, with a projected value of US$ 344.44 Million by 2030. This growth is expected to be driven by technological advancements, increasing consumer demand, and expanding application areas.

Compound Annual Growth Rate (CAGR): The forecast period anticipates a Compound Annual Growth Rate (CAGR) of 28.35 %, reflecting a steady and robust growth rate for the 3D Polyamide market over the coming years.

Technology Adoption: In the 3D Polyamide market, technology adoption plays a crucial role in advancing additive manufacturing processes and improving material properties. Manufacturers continually invest in research and development to enhance printing techniques such as selective laser sintering (SLS) and fused deposition modeling (FDM) for polyamide-based materials. Moreover, advancements in polymer chemistry and material science enable the development of new formulations with improved mechanical strength, heat resistance, and surface finish. Additionally, the integration of simulation software and digital twin technologies facilitates virtual prototyping and optimization of 3D printed polyamide components.

Application Diversity: The 3D Polyamide market serves a wide range of applications across industries such as automotive, aerospace, healthcare, consumer goods, and industrial manufacturing. Polyamide materials, known for their high strength-to-weight ratio, chemical resistance, and flexibility, are used in various applications including functional prototypes, end-use parts, tooling, jigs, fixtures, and medical implants. Each application segment has unique requirements in terms of mechanical properties, surface finish, and regulatory compliance, driving the demand for customized 3D printing solutions using polyamide materials.

Consumer Preferences: Consumer preferences in the 3D Polyamide market are influenced by factors such as material performance, cost-effectiveness, lead times, and customization capabilities. End-users prioritize polyamide materials that offer high strength, durability, and dimensional accuracy for functional prototypes and end-use parts. Additionally, affordability and scalability are important considerations, with consumers seeking cost-effective 3D printing solutions for small-batch production and rapid prototyping applications. Moreover, customization capabilities, including color options, surface finishes, and material properties, allow consumers to tailor 3D printed polyamide components to their specific requirements.

Technological Advancements: Technological advancements in the 3D Polyamide market focus on improving printing speed, resolution, and material properties to expand the range of applications and increase market adoption. Innovations in printer hardware, such as higher-powered lasers, precision motion systems, and automated powder handling, contribute to faster build times and improved part quality. Furthermore, advancements in material formulations, including reinforced polyamides with additives such as carbon fiber, glass fiber, or nanoparticles, enhance mechanical properties such as stiffness, toughness, and heat resistance. Additionally, developments in post-processing techniques such as surface finishing and dyeing further improve the aesthetic appeal and functionality of 3D printed polyamide parts.

Market Competition: The 3D Polyamide market is characterized by intense competition among material suppliers, 3D printer manufacturers, service bureaus, and end-users. Competition is driven by factors such as material performance, printing technology, pricing, lead times, and customer service. Material suppliers strive to develop proprietary formulations and establish partnerships with printer manufacturers to optimize material compatibility and performance. Meanwhile, service bureaus differentiate themselves through expertise in application-specific solutions, quality assurance, and post-processing capabilities. End-users evaluate providers based on their ability to deliver high-quality 3D printed parts within budget and timeline constraints.

Environmental Considerations: Environmental considerations are becoming increasingly important in the 3D Polyamide market, with a focus on sustainable material sourcing, recycling, and waste reduction. Manufacturers and end-users are exploring bio-based polyamide formulations derived from renewable resources to reduce reliance on fossil fuels and minimize carbon footprint. Moreover, efforts are underway to develop closed-loop recycling systems for polyamide powder and waste generated during printing processes. Additionally, advancements in additive manufacturing technologies, such as binder jetting and material extrusion, offer potential for reducing material waste and energy consumption compared to traditional manufacturing methods. Overall, the industry is working towards more sustainable practices to mitigate environmental impact throughout the lifecycle of 3D printed polyamide products.

 Top of Form

 Top of FormRegional Dynamics: Different regions may exhibit varying growth rates and adoption patterns influenced by factors such as consumer preferences, technological infrastructure and regulatory frameworks.

Key players in the industry include:

Arkema S.A

Evonik Industries AG

EOS GmbH

CRP Group

Stratasys Ltd.

3D Systems

Golden Plastics Corp

Prodways Machines

Ultimaker

Ascend Performance Materials.

The research report provides a comprehensive analysis of the 3D Polyamide market, offering insights into current trends, market dynamics and future prospects. It explores key factors driving growth, challenges faced by the industry, and potential opportunities for market players.

For more information and to access a complimentary sample report, visit Link to Sample Report: https://gqresearch.com/request-sample/global-3d-polyamide-market/

About GQ Research:

GQ Research is a company that is creating cutting edge, futuristic and informative reports in many different areas. Some of the most common areas where we generate reports are industry reports, country reports, company reports and everything in between.

Contact:

Jessica Joyal

+1 (614) 602 2897 | +919284395731

Website - https://gqresearch.com/

Additive manufacturing builds objects layer by layer from digital designs.

Providing benefits like Design Flexibility, Reduced Waste, and Production of complex geometries is not achievable through traditional methods.

Types of Additive Manufacturing:

1. Vat Polymerization. 2. Directed Energy Deposition. 3. Material Extrusion. 4. Powder Bed Fusion.

Benefits of Cloud ERP Integration:

1. Seamless Quality Control. 2. Enhanced Cost Visibility. 3. Enhanced Production Planning & more.

Acumatica ERP systems are crucial for additive manufacturing, offering tools to manage production processes efficiently.

Metal 3d printing post Processing in India - Wipro 3D

Wipro 3D's post-processing services help customers achieve the desired surface finish, texture, and strength characteristics for their metal 3D printed components.

Which technology aims to create three-dimensional objects from digital models using additive manufacturing techniques?

a) Virtual Reality (VR) b) Augmented Reality (AR) c) 3D Printing d) Holography

Eklemeli İmalat Teknolojileri: Geleceğin Üretim Yöntemleri

Eklemeli imalat teknolojileri (additive manufacturing technology), 3 boyutlu nesnelerin katman katman oluşturulmasıyla gerçekleşen üretim yöntemlerini ifade eder. Bu süreçlerde, bir dijital model temel alınarak malzeme, katmanlar halinde bir araya getirilir ve istenilen nesne şekli elde edilir. Bazı yaygın eklemeli imalat süreçleri şunlardır: - Erimiş Biriktirme Modelleme (Fused Deposition Modeling -FDM) veya Erimiş Filament İmalatı Filament Fabrication (FFF): 3 boyutlu yazıcılar tarafından kullanılan bir eklemeli imalat teknolojisidir. Bu teknoloji, termoplastik filament adı verilen ince bir malzeme telini kullanarak nesnelerin tabaka tabaka oluşturulmasını sağlar. Bu yöntemde, termoplastik filament (genellikle PLA veya ABS gibi) bir bobinden ısıtılarak ekstrüzyon ucu aracılığıyla tabaka tabaka bir yüzeye çıkarılır ve ardından her katman sertleşir. - Seçici Lazer Sintelreme (Selective Laser Sintering -SLS): Bu yöntemde, bir lazer ışını termoplastik veya metal tozlarını istenilen şekilde eriterek bir tabaka oluşturur. Ardından, platform aşağı iner ve bir sonraki tabaka uygulanır. Her katman bir öncekine bağlanır ve nihayetinde nesne oluşturulur. - Stereolitografi (Stereolithography-SLA): Bu yöntemde, bir UV lazer ışını sıvı bir reçineye odaklanır. Lazerin temas ettiği yerlerde reçine katılaşır ve istenilen katmanın şekli oluşur. Platform daha sonra bir sonraki katmana indirilir ve süreç tekrarlanır. - Elektron Işınıyla Eritme (Electron Beam Melting-EBM): Elektron ışınıyla eritme (Electron Beam Melting - EBM), 3 boyutlu metal baskı veya eklemeli imalat teknolojileri (additive manufacturing) süreçlerinden biridir. Bu yöntem, metallerin katılaştırılarak istenen şekillerde nesneler oluşturulmasını sağlar.EBM'de, bir elektron ışını kullanılarak metallerin toz halindeki formu eritilir ve ardından katılaştırılarak istenilen şekli elde edilir. Bu süreç, metal tozlarını katmanlar halinde bir araya getirerek 3 boyutlu bir nesne oluşturur. Her katman, bir sonraki katmanın üzerine serpilmiş metal tozu tabakasıyla oluşturulur. Elektron ışını, bu tozu istenilen şekilde eritir ve katılaştırır. Bu süreç, çok karmaşık geometrileri olan parçaların üretiminde kullanılır ve yüksek sıcaklıklara dayanıklı parçaların imalatında yaygın olarak tercih edilir. - Doğrudan Metal Lazer Sinterleme (Direct Metal Laser Sintering -DMLS): Bu yöntem, bir lazerin metal tozlarını eriterek katmanlar halinde bir araya getirdiği bir süreçtir. Sonuç olarak, metal parçalar üretilir. Bu eklemeli imalat teknolojileri, endüstride, sağlık sektöründe, havacılıkta ve daha birçok alanda prototip üretimi, özelleştirilmiş parça üretimi ve kompleks geometrili parçaların üretimi gibi birçok uygulamada kullanılmaktadır. Read the full article

لماذا فشلت شركة Uniz

بالاستحواذ على اكبر حصة سوقية في العالم ؟

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شركة Uniz (يونز) كانت من أولى وكبرى الشركات الريادية والرائدة في الطباعة ثلاثية الأبعاد بتكنولوجيا بلمرة الراتنج بتقنيات ال LCD ، تأسست عام 2012 مقرها في بكين ولديها فرعين في هولندا والولايات المتحدة الأمريكية والمصنع الرئيسي في مدينة كوانشي الصينية.

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شركة (يونز) أتقنت التكنولوجيا الأساسية لهذا المجال من ناحية البرامجيات والأجهزة عبر البحث والتطوير المستمر، وحققت ما يقارب 40 براءة إختراع في مجالها وقامت بتطوير مواد ��لريزن الخاصة بها وكانت من اولى الشركات التي حصلت موادها على شهادات منظمة الغذاء والدواء الأمريكية FDA وشهادات مطابقة المعايير الأوروبية CE.

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وحسب بعض المصادر، الشركة تأسست منذ سنة 1988 وكانت تعمل على تصنيع المعدات المختبرية الخاصة بطب وجراحة الأسنان عالية الجودة وهذا كان مصدر الهامها الأول في التطور التكنولوجي بإتجاه تصنيع الطابعات ثلاثية الأبعاد المتخصصة بصناعات الأسنان.

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وتفوقت (يونز) في مجال السرعة بسبب إستخدام أنظمة التبريد المائية المغلقة في تبريد شاشات ال LCD لدرجة أن في الوقت الذي فيه طابعات الشركات الأخرى تنتج القوالب في 3 الى 6 ساعات، كانت طابعات (يونز) تنتج نماذجها في 30 الى 60 دقيقة، لكن رغم كل هذا شركة (يونز) فشلت في تصدر السوق العالمي لعدة أسباب منها (الخوف من الإنفتاح على السوق العالمية) بسبب التوجه الإحتكاري وحقوق الملكية وعدم تبني فكرة المصادر المفتوحة في أنظمتها ومنتجاتها.

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وعلى الرغم من (تأريخ الشركة العريق) كانت منتجاتها تحتوي على أخطاء تصميمية مفصلية وجوهرية لم يتسامح معها المستخدمين حول العالم حيث كانت ط��بعاتها :

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• لاتحتوي على شاشات لمس للتحكم بالطابعة حيث الطابعة تحتوي على (زر واحد فقط) في مقدمة الطابعة، وشاشات التحكم هي بطبيعة الحال العنصر الاهم في الطابعات ثلاثية الأبعاد.

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• لا تحتوي على منافذ USB أو SD Card لطباعة الملفات حيث عملية الطباعة أما عن طريق إرسال الملفات بشكل لاسلكي (Wireless) او عن طريق كابل ال (Ethernet).

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• لا يمكنك إستخدام علب ريزن (Bottles) او انواع ريزن من شركات أخرى بسبب ان طابعاتها تستخدم نظام تغذية ريزن خاص بطابعاتها فقط ومتوافقة مع علب الريزن الخاص بها فقط حيث يتم تركيب علب ريزن (يونز) في الحوض الجانبي المخصص في طابعات يونز ولا يمكن إستخدام علب من نوع آخر.

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• عليك أن تستخدم برنامج التقطيع (Slicer) الخاص ب Uniz حصرا لإعداد النماذج وتحضيرها لعملية الطباعة، حيث لا يمكنك إستخدام برامج أخرى مثل Lychee أو Chitubox للطباعة.

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ولكن قامت شركة (يونز) بتصحيح بعض هذه الأخطاء الكبيرة في الطابعات التي قامت بإنتاجها مؤخرا في السنوات الماضية في محاولة لإستعادة مكانتها في السوق بالإضافة الى عمل شراكة او (Integration) مع شركة Medit لتسهيل عمليات صناعات الأسنان وهي كذلك تعتبر قيمة مضافة الى منتجاتها لما لها من الأهمية الكبيرة في الكثير من العيادات والمختبرات حول العالم.

Product development and rapid prototyping in the age of globalization

Product development is increasingly proving to be a key factor in the success of a company. On the one hand, the market is demanding new, innovative products in ever shorter cycles. On the other hand, these products have to meet increasingly higher requirements due to international competition.

I'm printing a beautiful Classic Chess set designed by SteedMaker. The pieces are printed in @halo3dfilaments in 0.1mm layers on the Prusa i3 MK3S+ by @josefprusa. The stands for these stunning pieces are printed as we speak and I will upload the final result shortly. You can find this Chess set on @printablescom via https://www.printables.com/model/200291-chess-classic-set #3dprinting #3dprintingcommunity #3dprinted #3dprintinglife #3dprinter #3dprint #3dp #3dmodeler #steedmaker #prusa3d #prusaprinters #prusai3mk3s #printables #printablescom #josefprusa #chess #makersofinstagram #maker #additivemanufacturing #de3dprintman (at Leiderdorp) https://www.instagram.com/p/CnkJiwGrFGl/?igshid=NGJjMDIxMWI=

3D Printing: Explore the world changing technology

In a rapidly evolving technological landscape, one term that has become synonymous with innovation is "3D printing." This transformative technology is reshaping industries and unlocking new possibilities. As we explore the realms of what is 3D printing, we'll unravel its significance and potential.

Understanding the Basics

To comprehend the marvels of 3D printing, let's start with the basics. At its core, 3D printing, or additive manufacturing, builds objects layer by layer from digital models. As the layers stack up, tangible and intricate creations emerge. https://www.youtube.com/watch?app=desktop&v=U-8-lu4mq8o

Applications Across Industries

The impact of 3D printing spans various sectors, from healthcare to aerospace. Medical professionals utilize this technology to craft customized implants, while engineers in aerospace design intricate components with unparalleled precision.

Source: 3ding

Advantages in Prototyping

One of the standout features of 3D printing lies in rapid prototyping. Designers and engineers can quickly bring concepts to life, allowing for faster iteration and refinement.

Environmental Considerations

An eco-friendly aspect of 3D printing is its ability to minimize waste. Traditional manufacturing processes often generate excess material, while 3D printing only uses the necessary amount, reducing environmental impact.

Challenges and Future Prospects

Despite its remarkable benefits, challenges persist, such as material limitations and cost factors. However, ongoing advancements in technology promise to address these hurdles, opening new frontiers for 3D printing.

Conclusion

As we delve into the captivating world of 3D printing, it's evident that this technology is not just a trend but a transformative force. From customized healthcare solutions to streamlined manufacturing processes, the applications are vast, and the potential, boundless. What is 3D printing? It's the gateway to a future where imagination knows no limits. Read the full article

Additive manufacturing is the technique of creating three-dimensional products from CAD models by layering on the material using digital data. 

Read the full article on our website: https://www.paanduvapplications.com/what-is-additive-manufacturing