From the Sector

Reset
5 results
 DITF erhalten „Innovationspreis Bioökonomie Baden-Württemberg 2020“ (c) LGL
Ministerialdirektorin Grit Puchan (li) überreicht den Preis an Dr. Antje Ota
27.11.2020

DITF erhalten „Innovationspreis Bioökonomie Baden-Württemberg 2020“

Die Deutschen Institute für Textil- und Faserforschung (DITF) sind einer von fünf Gewinnern des „Ideenwettbewerbs Bioökonomie - Innovationen für den Ländlichen Raum“, der vom Ministerium für Landwirtschaft und Verbraucherschutz Baden-Württemberg erstmals ausgerufen wurde. Ausgezeichnet wurden Beiträge zum Klimaschutz, zur Ressourceneffizienz, zum Schutz der Umwelt und der Biodiversität sowie zur Entwicklung des ländlichen Raums. Am 25. November 2020 wurde der Preis von Ministerialdirektorin Grit Puchan während des 5. Bioökonomietags überreicht. Die DITF erhalten den Preis für ihre Forschung an nachhaltigen Carbonfasern. Der Pitch-Vortrag von Dr. Frank Hermanutz und Dr. Antje Ota erhielt zudem auch noch den Publikumspreis.

Die Deutschen Institute für Textil- und Faserforschung (DITF) sind einer von fünf Gewinnern des „Ideenwettbewerbs Bioökonomie - Innovationen für den Ländlichen Raum“, der vom Ministerium für Landwirtschaft und Verbraucherschutz Baden-Württemberg erstmals ausgerufen wurde. Ausgezeichnet wurden Beiträge zum Klimaschutz, zur Ressourceneffizienz, zum Schutz der Umwelt und der Biodiversität sowie zur Entwicklung des ländlichen Raums. Am 25. November 2020 wurde der Preis von Ministerialdirektorin Grit Puchan während des 5. Bioökonomietags überreicht. Die DITF erhalten den Preis für ihre Forschung an nachhaltigen Carbonfasern. Der Pitch-Vortrag von Dr. Frank Hermanutz und Dr. Antje Ota erhielt zudem auch noch den Publikumspreis.

Ionische Flüssigkeiten (ionic liquids, IL) sind der Schlüssel zu nachhaltigen biobasierten Fasern für vielfältige Anwendungen in der Industrie. 2003 hat Dr. Frank Hermanutz mit seinem Team gemeinsam mit der BASF SE ein innovatives Lösungsmittel für Biopolymere, also Polymere aus nachwachsenden Rohstoffen, entdeckt. Auf dieser Basis wurden mit der patentierten HighPerCell®-Technologie Cellulosefilamentfasern entwickelt, die aufgrund ihrer spezifischen Fasereigenschaften als technische Fasern eingesetzt werden können. Sie sind zum Beispiel Ausgangsprodukt für cellulosebasierte Carbonfasern.

Carbonfasern werden vor allem im Fahrzeugbau eingesetzt, gewinnen aber auch im Bauwesen an Bedeutung. Sie sind äußerst hitzebeständig und belastbar. Herkömmliche, nicht auf Biopolymeren basierende Carbonfasern sind allerdings derzeit noch sehr teuer und ihre Herstellung belastet die Umwelt. Die Carbonfaserherstellung auf der Basis von Cellulose würde nicht nur die Umwelt schonen, sondern auch die Energiekosten senken. Für die Gewinnung von Zellstoff bietet sich zum Beispiel die heimische Buche an. Wissenschaftler des Kompetenzzentrums Biopolymerwerkstoffe der DITF bringen dieses neue Verfahren in das im April 2020 vom Land Baden-Württemberg gegründete Technikum Laubholz (TLH) ein. Dort wird die Technologie in enger Zusammenarbeit mit beteiligten Industriefirmen praktisch umgesetzt.

Hochleistungsfasern aus Cellulose sind für viele weitere Anwendungen geeignet, wie zum als Verstärkungsfasern im Beton oder als Bestandteil von sortenreinen Verbundwerkstoffe.

„Schon bald könnten biopolymerbasierte Werkstoffe die gleichen Eigenschaften aufweisen wie erdölbasierte Materialien. Das wäre ein enormer Beitrag zum Ressourcenschutz und zur Umweltverträglichkeit“ erklärt Frank Hermanutz.

Die Jury des Ideenwettbewerbs würdigt diese Forschungsleistung für Umweltschutz und Nachhaltigkeit mit dem Bioökonomie-Innovationspreis.

More information:
DITF BASF SE Carbonfasern
Source:

Deutschen Institute für Textil- und Faserforschung (DITF)

13.11.2020

The AVK presents its awards virtually for the first time

The AVK – Industrievereinigung Verstärkte Kunststoffe e.V. – has once again announced the winners of its prestigious Innovation Awards. Decided by an expert jury, the awards recognise and honour sustainable innovations in three categories: “Innovative Products/Applications”, “Innovative Processes” and “Research and Science”.

Overview of all the winners in the three categories:

Category “Innovative Products/Applications”
1st Place: “Directly-cooled electric motor with integral lightweight housing made of fibre reinforced polymers - DEmiL” – developed by the Fraunhofer Institute for Chemical Technology ICT, Pfinztal, Germany, in partnership with the Karlsruhe Institute of Technology and Sumitomo Bakelite Co., Ltd.*

2nd Place: “Intrinsically Reprocessable, Repairable and Recyclable (3R) thermoset composites for more Competitive and Sustainable Industries” – developed by cidetec, Donostia-San Sebastian, Spain*

The AVK – Industrievereinigung Verstärkte Kunststoffe e.V. – has once again announced the winners of its prestigious Innovation Awards. Decided by an expert jury, the awards recognise and honour sustainable innovations in three categories: “Innovative Products/Applications”, “Innovative Processes” and “Research and Science”.

Overview of all the winners in the three categories:

Category “Innovative Products/Applications”
1st Place: “Directly-cooled electric motor with integral lightweight housing made of fibre reinforced polymers - DEmiL” – developed by the Fraunhofer Institute for Chemical Technology ICT, Pfinztal, Germany, in partnership with the Karlsruhe Institute of Technology and Sumitomo Bakelite Co., Ltd.*

2nd Place: “Intrinsically Reprocessable, Repairable and Recyclable (3R) thermoset composites for more Competitive and Sustainable Industries” – developed by cidetec, Donostia-San Sebastian, Spain*

3rd Place: “Fireproof composite metal hybrid structure – LEO® fire protection sandwich with integrated Hyconnect steel-glass hybrid connector” – developed by SAERTEX GmbH & Co. KG and Hyconnect GmbH.*

Category “Innovative Processes”
1st Place: “Robotised Injection Moulding (ROBIN)” – developed by Robin, Dresden with the Institute for Lightweight Engineering and Polymer Technology at the TU Dresden*

2nd Place: “Omega stringer from the roll” – developed by the German Aerospace Center, Braunschweig*

3rd Place: “Hybrid die-casting – manufacturing of intrinsic CFRP-aluminium composite structures in aluminium high-pressure die-casting” – developed by Faserinstitut Bremen e. V. with Fraunhofer IFAM, Bremen*

Category “Research and Science”:
1st Place: “New high-temperature resistant UP resins and toughening agents” – developed by Münster University of Applied Sciences with BASF SE Global New Business Development, Leibniz Institute for Polymer Research e. V., Saertex multicom GmbH*

2nd Place: “Scientific basis for the industrial application of the thermoplastic resin transfer moulding (T-RTM) process” – developed by Fraunhofer Institute for Chemical Technology ICT, Pfinztal*

3rd Place: “The material- and energy-efficient production of turbine struts by the integrative combination of thermoset fibre reinforced materials” – developed by the Institute of Polymer Technology, University of Erlangen-Nuremberg with the German Aerospace Center, Gubesch Group, Schmidt WFT, Siebenwurst, Raschig.

Award ceremony on the Internet for the first time
For the first time, due to the Covid-19 pandemic, the award ceremony took place as an online event on 12 November 2020. Many of the award winners’ innovations will be presented again in this year’s AVK Innovation Award brochure. This will be available online: https://www.avk-tv.de/innovationaward.php

 

*Please see attached document for more information.

 

Source:

AVK – Industrievereinigung Verstärkte Kunststoffe e.V

(c) BASF 3D Printing Solutions GmbH
07.10.2019

BASF 3D Printing Solutions Presented Cutting-Edge Manufacturing Solutions at K 2019

  • Comprehensive 3D printing expertise in the automotive, aerospace, consumer goods and medical application sectors
  • Hands-on application presentation with a leading RV and trailer manufacturer
  • Content-rich Live Talks with industry-leading business partners
  • Live demonstration of pigmented plastic filaments with BASF Colors & Effects

BASF 3D Printing Solutions (B3DPS) exhibited for the second time at K 2019 in Düsseldorf, Germany. At the world’s biggest trade show for plastics and rubber industry, B3DPS welcomed visitors from October 16 through 23 at the BASF SE stand C21/D21 in Hall 5 and presented its extensive portfolio of 3D printing materials and service solutions aiming at enabling industrial additive manufacturing at scale. What’s more, the company’s 3D printing experts did offer insights into the latest technological innovations and application developments in the “competencies” section.

  • Comprehensive 3D printing expertise in the automotive, aerospace, consumer goods and medical application sectors
  • Hands-on application presentation with a leading RV and trailer manufacturer
  • Content-rich Live Talks with industry-leading business partners
  • Live demonstration of pigmented plastic filaments with BASF Colors & Effects

BASF 3D Printing Solutions (B3DPS) exhibited for the second time at K 2019 in Düsseldorf, Germany. At the world’s biggest trade show for plastics and rubber industry, B3DPS welcomed visitors from October 16 through 23 at the BASF SE stand C21/D21 in Hall 5 and presented its extensive portfolio of 3D printing materials and service solutions aiming at enabling industrial additive manufacturing at scale. What’s more, the company’s 3D printing experts did offer insights into the latest technological innovations and application developments in the “competencies” section.

Customized 3D printing highly attractive to RV and trailer market
The Concept Caravan at the BASF stand gave visitors hands-on experience of the impressive spectrum of applications offered by B3DPS. Alongside complex samples of printed modular construction elements, over one hundred individual parts have been 3D-printed using advanced photopolymer, filament and powder-based ready-to-print material formulations. The RV and trailer market is exceptionally attractive as it can greatly benefit from unique advantages offered by additive-based manufacturing, namely the high customizability of parts with complex geometries as well as the rapid availability of production parts without incurring tool costs. The very diverse material characteristics of the construction elements meet the production requirements for both vehicle exteriors and interior fittings. In addition, the final coating of manufactured parts plays a decisive role in many application areas, and this is also covered by the comprehensive BASF technology portfolio.

Source:

BASF 3D Printing Solutions GmbH

23.09.2019

Tape inserts offer big potential for injection molding parts

Market and technology analysis confirms big potential for tape inserts in the injection molding process. Following the finalization of a major consortial project led by the Aachen Center for Integrative Lightweight Production (AZL) and the Institute for Plastics Processing at RWTH Aachen University (IKV), the result is clear: tape inserts offer enormous potential for injection molding parts. For suitable components, product costs and component properties can be positively influenced.

In cooperation with 20 industrial partners, the two renowned Aachen research institutes AZL and IKV carried out a detailed analysis of tape inserts in injection molded components over a period of eight months. The tapes, which are a few tenths of a millimeter thick, are continuous fibers, typically made of glass or carbon, completely impregnated and embedded in a thermoplastic matrix. The tapes can be precisely aligned to the loads in a component and are used primarily in high-performance applications with the aim of weight reduction. The aim of the conducted analysis was the identification of potential applications and the estimation of a wider range of applications.

Market and technology analysis confirms big potential for tape inserts in the injection molding process. Following the finalization of a major consortial project led by the Aachen Center for Integrative Lightweight Production (AZL) and the Institute for Plastics Processing at RWTH Aachen University (IKV), the result is clear: tape inserts offer enormous potential for injection molding parts. For suitable components, product costs and component properties can be positively influenced.

In cooperation with 20 industrial partners, the two renowned Aachen research institutes AZL and IKV carried out a detailed analysis of tape inserts in injection molded components over a period of eight months. The tapes, which are a few tenths of a millimeter thick, are continuous fibers, typically made of glass or carbon, completely impregnated and embedded in a thermoplastic matrix. The tapes can be precisely aligned to the loads in a component and are used primarily in high-performance applications with the aim of weight reduction. The aim of the conducted analysis was the identification of potential applications and the estimation of a wider range of applications.

The project was divided into several phases: Phase I was used to identify the current status. In 20 interviews with representative companies of the injection molding industry, the researchers gathered why tape inserts have rarely been taken into account so far, when defining the material concepts to be analyzed. The lack of information about the material class, the procedure and tools for the development process and the necessary production technologies were cited as major challenges. This is where the consortium will take action and provide comprehensive information during the “Technology Information Day” on the extensively prepared state of the art and the high degree of maturity of the supply chain. Based on the status quo, they developed a methodology for analyzing the technological and economic potential of tape inserts in injection molding applications.

Both the previous results and the planned follow-up projects are the subject of the “Technology Information Day" at K 2019, to which the companies involved in the study, the AZL and IKV, invite all companies along the value chain, from raw material manufacturers to injection molders to OEMs. (Date: 18th October 2019, 10:00 am to 1:30 pm, Trade Fair Düsseldorf CCD South, Room 002).

The consortium, amongst others consisting of Asahi Kasei Europe GmbH, BASF SE, Borealis AG, BÜFA Thermoplastic Composites GmbH & Co. KG, ENGEL AUSTRIA GmbH, Huesker Synthetic GmbH, LG Hausys R&D Center, Mitsui Chemicals, Nippon Electric Glass, Polyscope Polymers BV, POLYTEC GROUP, Simcon kunststofftechnische Software GmbH, SABIC and Toray International Europe GmbH, is inviting to the “Technology Information Day” at K 2019. The goal is to inform about the technology and to identify topics for future collaboration.

Source:

AZL Aachen GmbH

20th anniversary of the JEC Innovation Awards (c) GROUPE JEC - Thierry-Alain TRUONG
07.03.2018

20th anniversary of the JEC Innovation Awards

  • JEC Group pays tribute to the winners at JEC World 2018

The 2018 session of JEC World, the reference trade show organized by JEC Group, is in full swing and the focus is on innovation!
The JEC Innovation Awards ceremony, which took place on the Agora stage on Wednesday, March 7 at 5 pm, opened with a presentation by Yves Rossy, aircraft pilot and inventor of the first jet-powered wingpack. Then the jury revealed the names of the composite champions up for a JEC Innovation Award. Eleven winning innovations were chosen, out of the thirty finalists that had been previously selected from more than 100 applications from all over the world.

  • JEC Group pays tribute to the winners at JEC World 2018

The 2018 session of JEC World, the reference trade show organized by JEC Group, is in full swing and the focus is on innovation!
The JEC Innovation Awards ceremony, which took place on the Agora stage on Wednesday, March 7 at 5 pm, opened with a presentation by Yves Rossy, aircraft pilot and inventor of the first jet-powered wingpack. Then the jury revealed the names of the composite champions up for a JEC Innovation Award. Eleven winning innovations were chosen, out of the thirty finalists that had been previously selected from more than 100 applications from all over the world.

“JEC Group supports innovation. In 1998, it created the first award dedicated to composites, as a way to promote and reward the sector’s champions. Thanks to the work of JEC Group’s teams, the program has become an international benchmark. Each year, we receive more than a hundred applications from all over the world. Selection is now based on criteria like the level of involvement of the innovation’s partners in the value chain, the technical nature of the innovation, or its commercial applications,” explains JEC Group President & CEO Frédérique Mutel.
A new feature this year is that the jury revealed the winners during the ceremony, and the public could choose their favorite innovation before, during, and after the ceremony. So there is still time to vote! Votes are opened until Thursday March 8th, 5pm http://innovationawards.jec-world.events
Did you miss the ceremony?

11 AWARD WINNERS:
AEROSPACE APPLICATION

Winner:
AeroComposit, JSC (Russia) and its partner Solvay (United Kingdom)

  • Infusion technology for an aircraft wing

The use of infusion technology to manufacture primary structural components for an aircraft wing. The technology makes it possible to create extra-long, integrated composite structures with complex aerodynamic shapes.

AEROSPACE PROCESS 
2 tied winners!
Winner: Airbus (Germany) and its partners, BMW Group (Germany), Technical University of Munich (TUM) (Germany), Neue Materialien Bayreuth GmbH (Germany), Werkzeugbau Siegfried Hofmann GmbH (Germany), BASF SE (Germany), Foldcore GmbH (Germany), Neenah Filtration (Germany) and SGL Carbon GmbH (Germany)

  • Complex structural applications for MAI sandwich technology

Cost-effective production of a complex 2.5D structure made of thermoplastic composite sandwich, with very short cycle times: under 5 minutes for aerospace materials and 2.5 minutes for automotive materials.

Winner: M. Torres Diseños Industriales SAU (Spain)
Moldless process to manufacture one-piece parts
A new manufacturing process for oversized one-piece reinforced composite structures, without requiring the use of complete molds.

AUTOMOTIVE APPLICATION
Winner: Ford Werke GmbH (Germany) and its partners, Gestamp (United Kingdom), GRM Consulting (United Kingdom) and University of Warwick (United Kingdom)

  • Lightweight composite automotive suspension part

Structural suspension part made of lightweight composite, using a brand-new patented process for prepreg/SMC/steel overmolding that was designed using a new computer-aided engineering (CAE) technology.

AUTOMOTIVE PROCESS
Winner: Audi AG (Germany) and its partners, Voith Composites GmbH & Co. KG (Germany), Dow Automotive (Switzerland), and Zoltek Corp. (United States)

  • Series production of a rear panel module made of carbon composite

For the first time, the potential of carbon fiber reinforced plastics (CFRP) is used to full advantage in series production with a new rear panel module and cost-effective production technologies.

CONSTRUCTION & INFRASTRUCTURE
Winner: Komatsu Seiren Co., Ltd. (Japan) and its partners, Kanazawa Institute of Technology (Japan) and Nagase ChemteX Corporation (Japan)

  • Cabkoma cable made of CFRTP

Komatsu Seiren has developed a cable made of molded carbon fiber reinforced thermoplastic (CFRTP), using a very cost-effective process that consists in polymerizing a thermoplastic epoxy resin in situ.

MARINE
Winner: Uljanik JSC (Croatia)

  • Composite cargo decks for a vehicle carrier

On the SIEM Cicero, a vehicle carrier with a capacity of 7,000 vehicles, glass-fiber reinforced composites are used for a number of the structures for the cargo decks, thereby considerably reducing the ship’s weight, fuel consumption and CO2 emissions.

RAILWAY
Winner: ELG Carbon Fibre Ltd. (United Kingdom) and its partners, Alstom Transport (United Kingdom), Magma Structures (United Kingdom), the University of Birmingham (United Kingdom), and the University of Huddersfield (United Kingdom)

  • A bogie frame made of optimized lightweight carbon fiber

This project has developed the very first carbon-fiber bogie frame that uses a recycled material, making it possible to overcome the obstacles to a commercial adoption of this type of structure.

SPORTS & LEISURE
Winner: BMW Group (Germany) and its partners EDAG Engineering GmbH (Germany), KraussMaffei Technologies GmbH (Germany), Chr. Karl Siebenwurst GmbH & Co. KG (Germany), TUM-LCC (Germany), Automation W + R GmbH (Germany), and FHG-IGCV (Germany)

  • A modular construction system for the rear swing arm suspension of a motorcycle

A modular system to produce a complex-shape swing arm suspension reinforced with carbon fiber. The system can adjust the mechanical properties on a case-by-case basis, for a competitive cost and weight compared to metal solutions.

SMART CITIES
Winner: MC Materiales Compuestos (Argentina) and its partners, Plaquimet (Argentina), Purcom (Brazil), IS Groupe - Composite Integrity (France), and G12 Innovation (Brazil)

  • The Wet Core Pod composite housing module

The Wet Core Pod is a composite housing module with an industrialization potential that can facilitate the most complex, costly and difficult step in a construction project.

SUSTAINABLE DEVELOPMENT
Winner: Cetim-Cermat (France) and its partner, CETIM (France)

  • “3-in-1” line for producing recycled composites

A modular line that uses an innovative thermomechanical process to make large panels from recycled composites or plastics. The panels are then thermoformed into parts.
 

Source:

Dorothée David & Marion RISCH, Agence Apocope