见解

Circular economy 3D printing: opportunities to improve sustainability in AM

The circular economy is a concept that seeks to make optimum use of resources in order to avoid waste.

A recent flurry of sustainability announcements from 3D printing firms have revealed new eco-friendly materials, innovative methods of repurposing waste, and the launch of new projects seeking to reduce additive manufacturing’s environmental footprint.

3D打印行业spoke to Emma Fromberg, Course Director at theCambridge Institute for Sustainability Leadership, and Marta Redrado Notivoli, Project Coordinator ofEU-fundedresearch initiative芭芭拉和chemical engineer at theAITIIP技术中心,以了解3D印刷行业中循环效果的洞察力,以及在未来该行业中应用的循环经济过程的机会。

Renewed efforts to combat climate change have lately been echoed on a much broader scale too, with US President Joe Biden committing the US toslash emissions by halfby the end of the decade, and UK Prime Minister Boris Johnsonurging world leaders to “get serious”ahead of United Nations (UN) climate talks later this year.

While such calls for environmental action appear to be getting louder, the failure of both government and industry leaders to match their words with action when it comes to sustainability is unfortunately nothing new. In a similar vein, while additive manufacturing is often considered a more sustainable manufacturing technology than others, according to85%的调查受访者by 3D printing software provider实现, there is an industry consensus that more must be done to avoidgreenwashing the technology.

“There is no doubt that heaps of these initiatives are not genuinely solving any real issues in terms of sustainability and are merely offering more efficient material use,” says Fromberg. “However, it is often done with the best intentions.”

Circularity refers to an economic system with the goal of eliminating waste and the continual use of resources. The需要进一步研究into how this concept can be fully applied within the 3D printing sector has been highlighted by researchers from the诺斯博亚大学(UNIDEMI), who believe greater open-source collaboration between industry partners could eventually provide new methods of addressing theUN’s sustainability goalswith the technology.

循环经济原则。图片通过Fillamentum。
循环经济原则。图片通过Fillamentum。

什么是循环经济?

近年来,3D打印已被证明是有效的,使公司能够接受分布式生产,这本身具有诸如提高工艺效率,减少浪费和运输减少的环境效益。

However despite these efficiency benefits, there is a growing industry consensus that far more needs to be done to improve the sustainability of the technology than is currently underway. One notion receiving increasing attention is that of the circular economy, and the role 3D printing can play in achieving circularity within manufacturing.

“As explained in the work on摇篮到摇篮by Braungart and McDonough: sustainability is not about doing less bad – we need to look at how we can do good,” says Fromberg. “It is a narrow focus to only look at the efficiency and agility of production only. We are then just using less energy and fewer materials.

“Just using less of everything is not going to be enough to address our economic, societal, and environmental crisis.”

The injection molded fuel-line clips. Photo via Ford.
Ford uses recycled 3D printing material for injection molded fuel-line clips for use on its Super Duty F-250 trucks. Photo via Ford.

AM内部正在进行的循环经济项目

Within the 3D printing sector alone, there are various initiatives currently underway to develop closed-loop manufacturing processes that reuse and repurpose waste materials. Within the automotive sector,Groupe Renault正在创建一个完全致力于的设施可持续的汽车生产through recycling and retrofitting vehicles using 3D printing, whileFordHPhave teamed up to回收3D打印废物最终使用汽车零件。

One notable project that is addressing circular economy 3D printing is芭芭拉(Biopolymers with Advanced functionalities foR Building and Automotive parts processed through Additive Manufacturing), aHorizon 2020project that brought together 11 partners from across Europe to produce bio-based materials from food waste suitable for 3D printing prototypes in the automotive and construction sectors.

之上结束四年的研究去年10月,该项目成功地开发了八种适合融合细丝制造(FFF)3D打印的新的基于生物的材料,该材料是通过提取天然染料,生物含量,抗菌剂和石榴,柠檬酸盐,杏仁壳和杏仁壳和杏仁壳和精油而创建的。玉米并将其加工成丝线线轴。

“Additive manufacturing can be used not only for prototypes but also as an opportunity to customize specific pieces,” says Redrado Notivoli. “In BARBARA, we have developed aesthetic details to technical parts.”

芭芭拉reached a technical readiness level (TRL) of five in October, and the consortium is currently planning to apply for national and European funding to reach TRL nine, which would involve upscaling the results of molecule extraction, extrusion and filament materials, and developing technology such as the consortium’s 3D printing heading device.

So far, the initiative has contributed to the growth of related industries within the bio-economy and circular economy European framework, and the next stage will be toscale up the project’s processes达到半工业级别。

Redrado Notivoli继续说道:“关于循环经济,使用丝状线轴意味着没有物质浪费。”“添加剂制造是一种不会消耗太多能源的技术,我们可以说这是一个干净的过程。残留物(例如塑料和纤维)用于制造新的生物聚合物,而其他塑料转化过程中的废物则以3D打印的颗粒形式重复使用。”

根据Redrado Notivoli的说法,在自己的流程中拥抱循环的3D打印公司的主要好处是浪费作为资源。

“There is no waste,” she explains. “It is transformed into resources. This also means the growth of industrial synergies between additive manufacturing companies and others that could be suppliers of resources, such as waste coming from plastic, metal, agriculture, ceramics, and so on. This will imply long-term the reduction of raw material costs.”

Aitiip完整的筋膜原型。使用的材料(从左到右):柠檬色素,柠檬香气,杏仁壳,石榴颜料。图片通过芭芭拉(Barbara)。
Complete fascia prototype by AITIIP in the BARBARA project. Materials used (left to right): lemon pigment, lemon fragrance, almond shell, pomegranate pigment. Image via BARBARA.

New circular economy materials

除了上述项目外,还在开发更多可持续材料生产的方法并提高相关流程的效率。

For instance, Amsterdam-based 3D printing filament vendor回流has released a range of eco-friendly“海棒”半透明材料made from locally sourced plastics, while Spain-based 3D printing materials producerRecreushas launched a flexible TPU filament that is100 percent recycled和made up of waste material from the footwear sector.

Elsewhere, circular 3D printing materials have also been developed from more obscure sources, including木质素植物细胞壁,水瓶,landfill-destined waste, and even白蚁和无聊的昆虫垃圾.

According to Fromberg, however, focusing on materials efficiency as a stand-alone solution to improving sustainability both within the 3D printing sector and beyond, is not enough.

“I would say that it can be counter-productive to overly focus on efficiency in the sustainability debate,” she explains. “Why don’t we ask ourselves: what do we want more of? I am interested in 3D printing and digital fabrication because it has the unique feature of cutting out large-scale operations and factories as a means of production and gives back individuals and communities a way to engage in the production, repair, and maintenance of their products.

她继续说:“也在Materiomby Alycia Garmulewicz and Liz Corbyn, there is an interesting field of possibilities opening up around using hyper-local (natural) materials for digital fabrication. All of these ideas together might help us to re-image a resilient and democratic system for production.”

回流’s sustainable line of six rPETG materials is made from locally-sourced plastic and inspired by the environment and its ‘natural wild beauty.’ Photo via Reflow
回流’s sustainable line of six rPETG materials is made from locally-sourced plastic and inspired by the environment and its ‘natural wild beauty.’ Photo via Reflow

在AM中发展进一步的循环经济过程的潜力

When asked where she foresees the greatest opportunities for successful circular economy processes to be applied within the 3D printing sector, Fromberg stated that additive manufacturing technologies have the potential to create a “variety of opportunities” for rural areas and emerging economies, in particular.

“Accessibility of means of production and the economic opportunities that are accompanied by the distributed nature of these technologies could have a profound impact on these areas, adding to equality, working conditions, and social fairness, for example,” she says. “I find this part of the discussion is often overlooked since the AM debate seems to be mostly based in Western urban regions and about materials efficiency.”

但是,她提供的是,西部城市地区的城市地区除了材料效率之外有很多好处:“例如,围绕制造商和fablab,可以将社区与个人联系起来,并支持个人始终保持其产品的价值。

“将这些类型的空间与工具库相结合也可能是增加已经存在的产品的实用性的一种方式,同时将它们连接到方便的维修和维护方法。”

The Freiburg researchers used a DIW 3D printing technique (pictured) to test their novel biomaterial. Image via Lisa Ebers, Freiburg University.
Researchers from Freiburg University used a DIW 3D printing technique (pictured) to test their novel environmentally-friendly wood-based 3D printing material. Image via Lisa Ebers, Freiburg University.

3D printing: Sustainable or not?

虽然应倡导和鼓励新的“环保”材料和改进的循环生产工艺,但在生产系统的所有领域都需要考虑和应用添加剂制造业的可持续性,以激发有效和有形的变化。

“业务经理,设计师,工程师,salespeople: they are all used to looking at their own part when a service or product is being rolled out – not the wider system of the production and the use of the product and who benefits from it,” she says. “More effective and genuine sustainable solutions require all these stakeholders to work together and look at the sustainability issue and the solution holistically.”

Indicating that individual triumphs aren’t enough to make the sustainability strides the 3D printing sector desires, Fromberg offers that a much greater collaborative approach between all levels of the supply chain is necessary.

“Even if you would not emit any carbon emissions at all, I would consider it not sustainable if you do not explore how everyone and everything can benefit from whatever you produce,” she explains. “I am looking forward to seeing real creative solutions that celebrate the unique features of 3D printing and digital fabrication in this space.”

It seems fair to surmise that while the development of new eco-friendly materials and the launching of various projects seeking to reduce additive manufacturing’s environmental footprint are positive steps in the sector’s march towards greater sustainability, there is still a long way to go before 3D printing becomes a fully circular manufacturing technology.

For this to become reality, it will require all parties active within the design and manufacturing process and supply chain to play their part in achieving a sustainable production model beyond simply maximizing process and material efficiencies.

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特色图片显示Aitiip在Barbara项目中完整的筋膜原型。使用的材料(从左到右):柠檬色素,柠檬香气,杏仁壳,石榴颜料。图片通过芭芭拉(Barbara)。