User:Charlotte Höltzig/sandbox/DyeMansion GmbH

This is not a Wikipedia article: It is an individual user's work-in-progress page, and may be incomplete and/or unreliable. For guidance on developing this draft, see Wikipedia:So you made a userspace draft.  Find sources: Google (books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL Easy tools: Citation bot (help) | Advanced: Fix bare URLs This page was last edited by Citation bot (talk | contribs) 23 months ago. (Update timer) Finished writing a draft article? Are you ready to request an experienced editor review it for possible inclusion in Wikipedia?     Submit your draft for review!

DyeMansion GmbH

File:Dyemansion Logo rgb pos EPS.png
Company type	GmbH
Industry	Additive Manufacturing
Founded	2015
Founder	Felix Ewald (CEO and co-founder), Philipp Kramer (CTO and co-founder)
Headquarters	Planegg-Munich, Germany (DyeMansion GmbH), Austin, Texas, USA, (DyeMansion North America Inc.)
Area served	Worldwide
Number of employees	50+
Website	https://dyemansion.com/en/

DyeMansion, based in Planegg-Munich is the world market leader in industrial Additive Manufacturing finishing systems for 3D-printed polymer parts. The solution developed by DyeMansion is called Print-to-Product workflow^[1] and transforms 3D-printed raw parts into high-value products. The DyeMansion technology is developed with focus on the powder bed fusion technologies Multi Jet Fusion/High Speed Sintering (HP, Voxeljet) and Selective Laser Sintering (EOS, 3D Systems). The technology is also being further developed for the material extrusion technology Fused Deposition Modeling/Fused Filament Fabrication (Stratsys, Ultimaker) and the Vat photopolymerization technologies Stereolithography, Digital Light Processing and Continous Liquid Interface Production (EOS, 3D Systems, Formlabs, EnvisionTEC, Carbon).

Company History

Founding

In 2013, Felix Ewald and Philipp Kramer co-founded the 3D-printing agency Trindo to originally sell customized 3D-printed smartphone covers matching the corporate design of large companies. Because there was no industrial solution for the dyeing of the 3D-printed plastic parts  used for their cases, they had to take back the first 200 products as the cases left traces of dye behind in users’ pockets. In their search for a solution to this problem, the two young founders discovered the great potential of a technology for the industrial coloring and post-processing of 3D-printed parts. The idea to develop an own coloring solution was born and therefore, in 2015, they co-founded DyeMansion.

Seed Invest & First Coloring Solution for 3D-Printed Parts

In early 2015, Dr. Hans Langer, founder of EOS invested^[2] in the young company through his Investment Holding AM Ventures. The common goal was to develop a scalable, automated coloring solution. Later that year, DyeMansion celebrated the launch of their first system DyeMansion DM60, which was the world’s first automated coloring system^[3] for 3D-printed polymer parts. The world premiere took place at Fomnext, the leading exhibition for Additive Manufacturing in November 2015 and with the coloring system, the team won the Formnext Start-Up Challenge competition^[4]. At the same time they started their On-Demand Coloring service^[5] where one could finish raw parts through DyeMansion technology.

DyeMansion Print-to-Product Workflow

It became clear that an industrial coloring solution couldn’t close the bottleneck in post-processing of 3D-printed polymer parts on its own - shown through manual processes, high costs and and the insufficient quality of the parts for serial production.^[6] As a solution to this problem DyeMansion developed two additional machines, the Powershot series. In the Powershot C powder residues can be removed automated and damage preventive through the principle of a rotating basket. The Powershot S works with a similar hardware setup, the parts become surfaced through the inhouse developed PolyShot Surfacing (PSS) process which closes the pores of the sintered parts. Therefore, the surface becomes homogeneous. The result is a matt-glossy look and a high scratch resistance of the surfaces. With the DM60, and the as well inhouse developed DeepDye Coloring (DDC) process, the Powershot blasting cabinets complement the Print-to-Product workflow, which covers all post-processing steps and is so far the only end-to-end solution on the market. The workflow as a whole was presented at Formnext 2016^[7]. Within three hours raw parts become high-end products.

Global expansion

For establishing as the world market leader and to serve the so far 600 customers worldwide DyeMansion begun to expand on a global base. Alliances as the strategic partnership with EOS in 2017 and the expansion of the partner networks with resellers in UK^[8], China and other regions did help to reach that goal. In 2018 the DyeMansion North America Inc. was founded^[9], the opening of an own office in Austin, TX is planned for the end of 2019. A branch in the APAC region is planned for 2020.

Series A Founding & VaporFuse Surfacing

Additional to the strategic investors AM Ventures, who supported DyeMansion 2015 with a initial seed funding, the company won two more investors in September 2018^[10]. The financial investors Unternehmertum Venture Capital (UVC Partners)^[11] and Btov Partners (Btov Industrial Technologies Fund). Together they concluded a 4,5 Million Euro Series A funding to enroll the global business and to expand the R&D capacity^[12].

The first outcome of the enforced R&D capacity is the new chemical VaporFuse Surfacing (VFS)^[13] process, which was first presented at Formnext 2018. It is a chemical surfacing solution that achieves surfaces that are similar to injection molded ones. The new technology is now in it’s beta testing phase. It will be the second surfacing option, next to the mechanical PolyShot Surfacing (PSS) and will be integrated in the Print-to-Product workflow. The hardware will be launched in November 2019 at Formnext.

Products

Print-to-Product Workflow

The Print-to-Product workflow is an end-to-end solution for additively manufactured polymer parts. It is a three-step process, consisting out of Cleaning, Surfacing and Coloring. The final finish and the color can be chosen depending on whats best for an application. Therefore, DyeMansion offers two surfacing options (Step 2, Surfacing), mechanical or chemical. There is no limitation in coloring options.

With DyeMansion's technology, the amount of time required to finish a part is three hours. The individual process steps are automated, and the operator only needs to reload the parts between the individual steps.

Depending on the step of the workflow compatible materials are PA12, PA11, PA06 and TPU.

All processes fulfill industrial health & safety standards.

Overview Technology-Portfolio

Workflow Step	Hardware	Technical Data	Process	Part Properties
Step 1, Cleaning		Cycle time: approx. 10 minutes Capacity per run: up to 75% of EOS P396 or HP Jet Fusion 4200 build job Dimensions: (L x W x H in inch) 65.6 x 51.2 x 79.9	Automated, mechanical, damage-preventive part cleaning	Undamaged parts Powder free parts
Step 2, Surfacing		Cycle time: approx. 10 minutes Capacity per run: up to 75% of EOS P396 or HP JET FUSION 4200 build job Dimensions: (L x W x H in inch) 65.6 x 51.2 x 79.9	PolyShot Surfacing (PSS): automated mechanical surfacing process	Matt-glossy homogeneous surfaces Improved look & pleasant haptics High scratch resistance of the parts
		tba. in November 2019	VaporFuse Surfacing (VFS): automated, chemical surfacing process	Smooth, high-glossy surfaces Improved water resistance of the parts
Step 3, Coloring		Cycle time: approx. 2,5 h Capacity per run: up to a full EOS P396 or HP Jet Fusion 4200 build job Penetration depth of the dye:Material dependent (approx. 0.2mm on PA2200) Working temperature: Material dependent (up to 115°C | 239°F) Dimensions: (L x W x H in inch) 37.4 x 23.7 x 35.5	DeepDye Coloring (DDC): Plug & Play, contact free process for unlimited color options DeepDye Coloring (DDC) Black: Plug & Play, contact free process for black coloring	Homogeneously colored surfaces Dyed parts without added material layer Consistent penetration depth of the dye into the part
		Dimensions: (L x W x H in inch) 15.4 x 13.8 x 64.6	Storaging the process water of DDC black	High-volume black coloring Process water reuse up to five times
		Dimensions: (L x W x H in inch) 43.3 x 27.6 x 69.9	Customized Reverse Osmosis System (ROS) for better water quality	reproducible dyeing result due to consistent water quality

Color Options & Color Matching

Since coloring and appearance depend very much on parameters such as material and finish, the DyeMansion standard colors and offered RAL colors were developed with defined parameters, namely for PA2200 and PolyShot Surfacing (PSS) finish.

The DyeMansion color selection for DeepDye Coloring (DDC) covers the 17 DyeMansion Standard Colors and 171 RAL Classic semi matt colors^[14].

In addition, most of Pantone TPG shades, customized colors and special skintones can be developed on different materials on request. With specific Automotive and Neon colors, the X-Color Line serves specific needs of different industries.

The DyeMansion color matching technology starts with a physical color sample. First the sample  is measured by a spectrophotometer and then the tone is developed by using several iterations directly on the customer’s material and finish. The Color Matching works with plastics, fabrics, papers and even human skin.

Industries & Applications

The applications of industrial 3D-printing are seeing an enormous growth. According to the study published by Lean & Manufacturing (Get Ready for Industrialized Manufacturing)^[15], the annual growth rate is 30%.

Thus, in the following industries, which are served by DyeMansion, more and more end products can be found which are produced in serial production already.

Medical Sector

The medical sector has high requirements for 3D-printed products especially in terms of  biocompatibility when they are worn directly on the skin. The DyeMansion colors are certified and passed tests for cytotoxicity and skin irritation. Common 3D-printed applications made of plastics are customized orthotics, prosthetics or medical insoles.  

Industrial Sector

In the industrial sector spare parts produced with Additive Manufacturing bring advantages: local on-demand production without tooling costs and no storage.  The efficiency of the value chain increases^[16] and the ecological footprint decreases^[17]. In the Automotive sector, also interior parts can be produced with 3D-printing today. Here, the DyeMansion technology delivers an automated and traceable end-to-end finishing solutions for reproducible surface and color results while matching any desired color. The DyeMansion Automotive X-Colors are developed according to the hot irradiation standards of ISO EN 105 B06 method 3 for better light and heat resistant.

Consumer & Lifestyle Sector

In the consumer sector, the level of customization is high and since the lifestyle industry follows seasonal trends, the innovation cycles run pretty fast. Most important is a big color variety that has to be standardized and easy accessible. Therefore DyeMansion offers the biggest standardized color range in the 3D-printing industry. It includes 17 standard colors, 171 RAL colors and a tailored color solution for this sector: the Neon X-Colors. The company can also develop certain Pantone TPG shades and colors of choice, such as corporate colors. Tailor made eyewear, footwear and jewelry are common applications.  

Achievements & Networks

Formnext Start-Up Challenge

In 2015 DyeMansion won the Formnext Start-Up Challenge with the first dyeing solution for 3D-printed polymerparts worldwide.^[18] The Formnext Start-Up Challenge honors young and innovative companies of the Additive Manufacturing industry. The award is given to newly developed, sustainable business concepts from the world of industrial 3D-printing.

German Accelerator Tech

In 2017 DyeMansion won the funding programme for innovative German tech start-ups and spent some time in the Californian Mecca of technology Silicon Valley to work on it’s global expansion and their business model.^[19] With its Accelerator programme the German Federal Ministry of Economics and Technology (BMWi) supports german start-ups entering the U.S.-Americain- and the Southeast-Asian market.

TCT Awards

The TCT Awards annually honour the most innovative technologies, projects and brains from the additive market. DyeMansion was honored in 2017 and 2018 in the catogory ‘Highly Commended’:

In 2017^[20] with the  ‘TCT Automotive Product Application Award’ for the project ‘Replacements Bus Parts’ in cooperation with Daimler, FKM Sintertechnik and EOS.

In the year 2018 with the ‘TCT ‘Post Processing Award’ for the DyeMansion Print-to-Product workflow. ^[21]

File:Spares AMX.jpg

Spares AMX

The SparesAMX network combines years of industry experience with expertise from research and interdisciplinary industries within the Industry 4.0 and serves as a platform for the generation and implementation of creative technical ideas.

DyeMansion has been one of the network partners since October 2018.^[22]

Mobility Goes Additives

File:Logo-mga-300dpi-banner-color.png

Mobility goes Additive is the leading international network of companies, institutions and research institutes working on industrial additive solutions. It aims to accelerate the adoption of serial additive manufacturing and allow the industry leaders to cooperate with each other to achieve the goal together. DyeMansion GmbH has been a member of the network since 2018.^[23]

References

1. "New post-processing workflow from DyeMansion, presented at RAPID + TCT". 3D Printing Industry. 2018-04-24. Retrieved 2019-08-27.
2. Davide Sher (2015-09-14). "EOS FOUNDER INVESTS IN DYEMANSION TO EXPAND SLS COLOR 3D PRINTING". http://3dprintingindustry.com. 3dPrinting Industry. {{cite web}}: External link in |periodical= (help)
3. "DyeMansion to show new finish range and technology at Formnext". 2016-11-03.
4. "DyeMansion Launches SLS Coloring System at formnext". 2015-11-17.
5. "DyeMansion Launches SLS Coloring System at formnext". 3D Printing Industry. 2015-11-17. Retrieved 2019-08-27.
6. "Top 3D Printing Challenges: How to Overcome Them | Jabil". Jabil.com. Retrieved 2019-08-27.
7. Harlaß, Pia (08.05.2019). "DyeMansion launches an automated blasting system and a new upgrade for the DM60 at Formnext 2016". {{cite web}}: Check date values in: |date= (help)
8. Davies, Sam (2018-12-14). "Matsuura Machinery becomes UK distributor of Dyemansion post-processing systems". TCT Magazine. Retrieved 2019-08-27.
9. Pia Harlass (2018-04-20). "DYEMANSION INTRODUCING THEIR 'PRINT-TO-PRODUCT' WORKFLOW AND PRESENCE IN NORTH AMERICA AT RAPID + TCT 2018" (PDF). www.dyemansion.com. DyeMansion GmbH.
10. "3D printing finishing startup DyeMansion raises $5M in series A funding to go global".
11. Banhardt, Jakob (2018-09-07). "Unternehmertum Venture Capital Partners invests in DyeMansion". Unternehmertum Venture Capital Partners. Retrieved 2019-08-27.
12. "Millions invested for completely smooth surfaces".
13. "DyeMansion's Way Ahead is Smooth with VaporFuse Surfacing".
14. Davies, Sam (2018-09-26). "Dyemansion announces increased colour capabilities for DM60 post-processing machine". TCT Magazine. Retrieved 2019-09-10.
15. "Get Ready for Industrialized Additive Manufacturing" (in German).
16. Siavash H. Khajavi, Jouni Partanen, Jan Holmström (2014-01-01), "Additive manufacturing in the spare parts supply chain", Computers in Industry (in German), vol. 65, no. 1, pp. 50–63, doi:10.1016/j.compind.2013.07.008, ISSN 0166-3615, retrieved 2019-06-02
17. "The potential of 3D printing to reduce the environmental impacts of production".
18. "DyeMansion Launches SLS Coloring System at formnext". 2015-11-17.
19. Harlaß, Pia (2019-09-03). "DYEMANSION WINS THE "GERMAN ACCELERATOR TECH" PROGRAM AND ISGOING TO SILICON VALLEY IN JULY" (PDF). www.dyemansion.com.
20. "The TCT Award Winners". 2017-10-01.
21. "TCT Awards 2018 Celebrates Best of Industry". 2018-09-27.
22. "Informationen". SparesAMx (in German). Retrieved 2019-09-03.
23. "Members | Mobility goes Additive e.V." Retrieved 2019-09-03.