stereolithography (SLA) – Asia Pacific Metalworking Equipment News | Manufacturing | Automation | Quality Control https://www.equipment-news.com As Asia’s number one English metalworking magazine, Asia Pacific Metalworking Equipment News (APMEN) is a must-read for professionals in the automotive, aerospace, die & mould, oil & gas, electrical & electronics and medical engineering industries. Mon, 05 Aug 2024 03:39:56 +0000 en-US hourly 1 https://wordpress.org/?v=6.7.1 Bioprinting Adoption To Propel Additive Manufacturing Market https://www.equipment-news.com/bioprinting-adoption-to-propel-additive-manufacturing-market/ Mon, 05 Aug 2024 03:39:56 +0000 https://www.equipment-news.com/?p=33875 Increased demand for personalised and customised medical solutions like bioprinting is driving the 3D printing medical devices sector to rise by US$7.07 billion until 2028 at a CAGR of approximately 25.2%. Source: Manufacturing Asia “The potential applications of 3D printing…

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Increased demand for personalised and customised medical solutions like bioprinting is driving the 3D printing medical devices sector to rise by US$7.07 billion until 2028 at a CAGR of approximately 25.2%.

Source: Manufacturing Asia


“The potential applications of 3D printing in medicine are vast, from surgical planning and dental restoration to remote patient monitoring and telemedicine,” according to Technavio, quoted by Manufacturing Asia revealed. Meanwhile, a trend towards the field of bioprinting serves as another growth factor.

Additionally, findings from MarketsandMarkets Research revealed the global 3D printing bioprinting market vlued at US$1.3 billion in 2024, is expected to reach US$2.4 billion in 2029, growing at a compound annual growth rate (CAGR) of 12.7%. This growth is driven by advancements in 3D bioprinting technology, increased public-private partnerships, and its integration into pharmaceutical and cosmetic industries.

Key market drivers include adopting 3D bioprinting for precise tissue and organ fabrication, facilitating drug testing and personalised medicine. Opportunities lie in the rising demand for organ transplants, while biocompatibility issues and stringent sterilisation protocols present challenges.

Unlike traditional 3D printers that use plastics or metals, bioprinters utilise a computer-guided pipette to deposit living cells, known as “bioink,” to produce artificial living tissues. This capability has notable implications for organ replacement, potentially addressing donor shortages and reducing rejection risks by creating organs fit for specific needs.

Moreover, the market is also witnessing advances in other areas, including prosthetics, implants, and surgical equipment. Solutions such as stereolithography (SLA) and digital light processing are widely used in the production of customised medical devices, including orthopaedic implants and wearable medical devices. 

Furthermore, the fields of dentistry and orthodontics benefit from 3D printing, which can be utilised for dentures, bone scaffolds, and hearing aids.

“Complex medical procedures, such as implantable and non-implantable medical devices, drug testing, and organ and tissue production, are also being revolutionised by this technology,” the report added.

 

 

 

 

 

 

 

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How To Choose The Right 3D Printing Material https://www.equipment-news.com/how-to-choose-the-right-3d-printing-material/ Thu, 20 Jan 2022 06:00:33 +0000 https://www.equipment-news.com/?p=23220 What do Notched IZOD of 14 J/m, post-cured, and ASTM D 256-10 actually mean? What’s the difference between strength and modulus? How do they relate to common materials that we come across every day, and why does it matter to…

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What do Notched IZOD of 14 J/m, post-cured, and ASTM D 256-10 actually mean? What’s the difference between strength and modulus? How do they relate to common materials that we come across every day, and why does it matter to you?

Understanding Material Properties of Plastics

Material properties such as chemical, optical, mechanical, thermal, or electrical characteristics reflect how a specific material will behave under certain conditions. As quantitative metrics, these attributes can help you assess the benefits of one material versus another for a specific use case.

In the following, Formlabs will describe the most widely used mechanical and thermal properties, their importance for specific applications, and how 3D printed materials relate to plastics manufactured with traditional methods to help you make the right material decisions.

WEBINAR

How to Select the Right 3D Printing Material

In this webinar, Formlabs will walk through five high priority material properties, and give you their recommendations on popular 3D printing materials to use based on your desired material or application.

Watch the Webinar Now

INTERACTIVE

Find the Right Material for Your Application

Need some help figuring out which 3D printing material you should choose? Formlabs’ new interactive material wizard helps you make the right material decisions based on your application and the properties you care the most about from their growing library of resins.

Recommend Me a Material

FULL ARTICLE AVAILABLE >> https://formlabs.com/asia/blog/how-to-choose-the-right-3D-printing-material/

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Evonik’s Research Hub In Singapore Launches New Line Of Photopolymers For 3D Printing https://www.equipment-news.com/evoniks-research-hub-in-singapore-launches-new-line-of-photopolymers-for-3d-printing/ Wed, 05 May 2021 02:30:05 +0000 http://www.equipment-news.com/?p=20359 Evonik has developed two photopolymers for industrial 3D printing applications and introduces them under the brand names INFINAM TI 3100 L and INFINAM ST 6100 L. The two ready-to-use materials were conceptualised and invented in Evonik’s research hub in Singapore.…

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Evonik has developed two photopolymers for industrial 3D printing applications and introduces them under the brand names INFINAM TI 3100 L and INFINAM ST 6100 L. The two ready-to-use materials were conceptualised and invented in Evonik’s research hub in Singapore. They mark the start of a new product line of polymer resins suitable for use in common VAT polymerisation technologies such as SLA or DLP.

“With the new product line, we are entering the market-relevant photopolymer technology stream, strengthening our long-term market position as materials experts for all major polymer-based 3D printing technologies,” says Dr. Dominic Störkle, head of the Additive Manufacturing Innovation Growth Field at Evonik. “With the new ready-to-use formulations, we are also continuing our materials campaign and driving industrial-scale 3D printing as manufacturing technology along the entire value chain.”

Starting signal for a new photopolymer product line

The first high-performance material from Evonik’s photopolymer product family leads to high toughness and impact-resistant 3D parts. The combination of properties makes INFINAM TI 3100 L the new standard for additive manufacturing of industrial components using VAT polymerisation technologies such as SLA and DLP. The impact resistance measured on printed components is 30 J/m3 with a high elongation at break of 120 percent. The new material can therefore withstand strong impact or permanent mechanical effects such as pressing or impact. The range of possible applications extends from industrial to automotive parts and individual applications in the consumer goods sector, which, in addition to design-free forms, require strong mechanical loads in object use.

The second formulation is setting-up a new benchmark in high strength photo-resin category with a combined tensile strength of 89 MPa, flexural stress of 145 MPa and HDT of 120 deg C, which fills the material gap in ultra-high strength photopolymers. These special material properties make INFINAM ST 6100 L the material of choice for applications which need high temperature resistance combined with high mechanical strength.

 

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How 3D Printed Injection Moulds Can Reduce Production Time & Tooling Cost https://www.equipment-news.com/how-3d-printed-injection-moulds-can-reduce-production-time-tooling-cost/ Mon, 15 Mar 2021 04:11:51 +0000 http://www.equipment-news.com/?p=20056 As we all know injection moulding requires high initial investment, specialist equipment and lead time for tooling, this can significantly hinder the speed and cost to introduce new products to the market. However, with the continuous advancements in additive manufacturing…

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As we all know injection moulding requires high initial investment, specialist equipment and lead time for tooling, this can significantly hinder the speed and cost to introduce new products to the market. However, with the continuous advancements in additive manufacturing 3D printing technology is now offering a cost-cutting, agile alternative solution to quickly design and fabricate mould for small runs of thermoplastics prototypes or end-use parts.

What is injection moulding?

Injection moulding is one of the leading processes for manufacturing plastics as it yields high-quality parts and is cost effective. Widely used for mass-producing identical parts with tight tolerances, it is a fast, intensive process where high heat and pressure are involved to melt thermoplastic and force it inside a mould.

Because of these extreme moulding conditions, the tools are traditionally made out of metal by CNC machining or electric discharge machining (EDM). However, these are expensive industrial methods that require specialised equipment, high-end software, and skilled labour.

Manufacturers are now turning to 3D printing to fabricate injection mould rapidly and at low cost. They can benefit from the speed and flexibility of in-house 3D printing to create the mould and couple it with the production force of injection moulding to deliver a series of units from common thermoplastics in a matter of days.

Challenges

Even though 3D printing moulds can offer these advantages when used appropriately, there are still some limitations. We should not expect the same performance from a 3D printing polymer mould as from a machined metallic one. Critical dimensions are harder to meet, cooling time is longer because the thermal transfer occurs slower in plastic, and printed moulds can easily break under heat and pressure. However, low-run injection moulds are great assets for engineers to deliver limited batches of end-use parts or prototypes in the final plastic, for pre-production tests.

Unlocking in demand mould fabrication with stereolithography (SLA)

Stereolithography (SLA) printing technology is a great choice for moulding. It is characterised by a smooth surface finish and high precision that the mould will transfer to the final part and that also facilitates demoulding.

In a recent webinar, Formlabs discusses how SLA printing enables in-demand mould fabrication to generate hundreds of parts, from idea to production, in a matter of days, at a fraction of the cost. Catch the re-run of the webinar here, and learn:

  • Expert processes to design a 3D printed mould for injection moulding.
  • Which printing and moulding conditions ensure success, including an overview of the Formlabs resins that Novus Applications and Braskem use for the moulds.

Strategies for the post-processing workflow, including ejection and demoulding

Real-life applications

Access the full white paper here and have a closer look at how this hybrid manufacturing process enables on-demand mould fabrication to quickly produce small batches of thermoplastic parts through real-life case studies with Braskem, Holimaker, and Novus Applications.

For more information, click here for an overview of methods and guidelines for using SLA 3D printed moulds in the injection moulding process.

 

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