On the afternoon of October 25th, 2017, after a year of brewing and preparation, with the joint efforts of China Automotive Engineering Society and 3D Science Valley, the new book release conference of "3D Printing and Automotive Industry Technology Development Report" was held at Shanghai Jiading Automobile Exhibition Center. .
The conference specially invited Mr. Fu Yuwu, Chairman of China Automotive Engineering Society, Ms. Wang Xiaoyan, Founder and CEO of 3D Science Valley, Vice President of Beijing Institute of Technology Press, Mr. Fan Hongliang, Director of China Engineering Graphics Society, and 3D Printing Experts from the automotive industry and news media will witness the release of the new book.
In the speech, Mr. Wu said that the automobile power is first and foremost a manufacturing power. The 3D printing technology has changed the traditional thinking mode of automobile manufacturing in a hundred years of subversive molding, and will also create a great effect on the traditional production methods in automobile manufacturing. Great impact. A big value of 3D printing technology is to create added value for the product, both in the research and development phase and in the production field. There is no doubt that 3D printing technology will become an increasingly popular technical topic in the field of automotive manufacturing. The application of this technology in the automotive industry has far more opportunities than challenges.
At present, the global concern in energy and environment has made people put forward higher and higher requirements for the development of automobiles. It should be noted that automotive technology has been greatly improved in the last three decades, and cars are becoming more energy-efficient, environmentally friendly and safer. Looking at the current relatively traditional design and manufacturing methods, how to use a variety of new materials that are more suitable for technological development, so that the complex design used in the automotive products to meet the performance can be easily realized, thus making the car more lightweight. 3D printing technology has emerged as it is more convenient, fast and efficient in the manufacture of some of the key automotive components.
Fu Yuwu said that it is believed that the publication and distribution of the "3D Printing and Automotive Industry Technology Development Report" will have a good reference for the development of China's automobile manufacturing industry. At the same time, the application of 3D printing technology to China The automotive industry is also a good complement, improvement and promotion in vehicle design, especially in manufacturing.
Ms. Wang Xiaoyan, founder and CEO of 3D Science Valley, said that the idea of ​​jointly publishing the "3D Printing and Automotive Industry Technology Development Report" with the China Automotive Engineering Society began two years ago. After continuous contact and discussion, the China Automotive Engineering Society Equipment Department Teacher Cai Yunsheng gave strong support and guidance.
Wang Xiaoyan said that BMW and Germany's voxeljet have cooperated to develop a new type of rapid manufacturing technology for engines; and Renishaw in the UK has also cooperated with an engineering company that manufactures radiators for the use of electric turbines for electric vehicles. . These products may be different from what we are familiar with. This is the change that 3D printing has brought to the manufacturing industry: product redesign.
3D printing eliminates the traditional mold opening process and the mold manufacturing process itself is expensive and time consuming. The moldless manufacturing process makes 3D printing technology especially suitable for small batch production. In the automotive industry, the parts used in small-volume production include prototype and trial production in the development process, concept cars in the display process, tooling fixtures in the manufacturing process, parts repair in the remanufacturing process, and individual modification and customization processes. Parts in the process, as well as small batch spare parts in the aftermarket.
In addition to moldless, 3D printing has the biggest advantage that manufacturing costs do not increase significantly with the complexity of product design, which is significantly different from traditional manufacturing techniques. Conventional machining processes can't even be realized due to factors such as interference in machining when manufacturing very complex shapes, so designers have to change the design or sacrifice some of the functions they want to achieve. 3D printing is not only suitable for the manufacture of complex shapes and structures, but also offers greater possibilities for product-oriented design freedom. Bionic structures, dot matrix structures, and integrated functional integration are all areas where 3D printing can be used. Especially for bionic structural parts that cannot be processed by traditional processes, 3D printing has obvious advantages.
The effect of 3D printing on the added value of the product is like the progressive feeling of “sneak into the night with the wind, and the things are fine and silentâ€. If there is a lack of understanding and attention to 3D printing, then it is easy to miss the opportunity to see the whole city of Jinguan become a world full of flowers. Because the competition in the automotive industry has not only been limited to the automotive industry itself, even tire companies like Michelin already have their own 3D printing equipment brand, the competition in the automotive industry is going back to the upper reaches, and the automobile factory is not only closer to the equipment manufacturers. Cooperation and joint research and development of innovative product processing technology is an increasingly obvious trend and a necessary means to win competition.
President Fan Hongliang introduced the "3D Printing and Automotive Industry Technology Development Report" with detailed information and clear case details of 3D printing in the design and manufacturing process of the car from the modeling review, concept car, prototype and design verification, body manufacturing, zero How to innovate in parts, molds and castings, tooling, and aftermarket spare parts. Grasping the development trend of lightweight, new energy utilization and intelligentization of the world's automobiles, 3D printing has shown unique value in these aspects.
Throughout the book, novel research perspectives, rich data information, and focused research findings will help readers to deepen their understanding and understanding of the development and application of 3D printing technology in China's automotive industry, and to manage related industries. Departments, decision-making departments and strategic research institutions have good reference value.
The automotive industry has always focused on production efficiency and manufacturing costs. 3D printing has also injected new vitality into automation, digitalization, intelligent manufacturing and lightweighting of automotive products. There is no doubt that many of the advantages of 3D printing technology will gradually emerge in the automotive industry. I believe that the publication of "3D Printing and Automotive Industry Technology Development Report" strongly promotes the application process of this breakthrough technological revolution in the automotive industry.
Book Catalog:
3D printing and automotive industry technology development report
Preface
Chapter I Status and Development Trend of Automobile Manufacturing
1.1 China's automobile industry status and market size
1.2 World Automotive Development Trends
1.3 China's automotive industry development goals
1.4 Energy-saving and new energy vehicle manufacturing technology roadmap
Chapter II Government Support Policies and Corporate Surveys for 3D Printing
2.1 Factors to consider when introducing 3D printing
2.2 China's 3D printing support policy
2.3 US support for 3D printing
2.4 European support for 3D printing
2.5 Domestic automobile manufacturing company 3D printing survey
Chapter III Application and Development of 3D Printing in Automobile Manufacturing
3.1 3D printing begins to enter the trillion-dollar manufacturing market
3.2 Understanding the value of 3D printing
3.3 3D printing technology for production
3.3.1 3D printing in the BMW workshop
3.3.2 3D rapid prototyping in Ford production workshop
3.3.3 Metal 3D printing in Audi Smart Factory
3.3.4 Daimler - Meeting the New Era of 3D Printing
3.4 Combination of 3D printing technology and production line
3.4.1 3D printing combined with machining to achieve complex parts
3.4.2 Combination of 3D printing and mold manufacturing machining technology
3.4.3 3D printing flexible production line
Chapter IV 3D Printing Application Cases in the Automotive Industry
4.1 Model review
4.2 Concept car
4.3 Prototype and Design Verification
4.4 Subversive body manufacturing technology
4.5 3D printing and automotive parts innovation
4.5.1 diesel engine
4.5.2 High efficiency heat exchanger
4.5.3 lightweight car seat
4.5.4 car interior
4.6 Mold
4.6.1 Enhance the value of conformal cooling molds
4.6.2 Hot stamping die manufacturing with shape cooling channel
4.7 casting
4.7.1 Simulation Optimization and 3D Printing Technology Inspire Casting Vigor
4.7.2 3D printing sand mold assists in rapid casting of engine castings
4.7.33D printing investment mold application in automobile engine casting
4.8 Tooling
4.9 Automobile aftermarket
Chapter 5: The Impact of 3D Printing on Automotive Design and Manufacturing Thinking
5.1 R&D Accelerator
5.1.1 Trial production of turbocharger parts
5.1.2 Rapid trial production of auto parts
5.2 3D printing and car lightweighting
5.2.1 Rapid development of carbon fiber 3D printing
5.2.2 Lightweight structure and 3D printing
5.3 3D printing and new energy vehicles
5.4 3D printing and smart cars
5.5 Disruptive car design ideas brought by 3D printing
5.6 3D printing and racing parts manufacturing
Chapter VI Analysis of 3D Printing Patent in China's Automobile Manufacturing Industry
6.1 Application direction of patented technology
6.2 Representative patented technology
6.2.1 Casting
6.2.2 Mold
6.2.3 Auto parts
Chapter VII 3D Printing Materials for Automotive Manufacturing
7.1 3D printing materials market
7.2 Plastic 3D printing materials
7.2.1 Nylon material
7.2.2 Photosensitive resin material
7.2.3 ABS and PLA wire
7.2.4 Carbon fiber material
7.2.5 Alternative metal PEEK
7.2.6 TPU material
7.3 Metal 3D printing powder
7.3.1 Powder market
7.3.2 Powder boom
7.3.3 Material Solutions
Chapter 8 Core Competencies of 3D Printing: Design and Software
8.1 Designed for additive manufacturing
8.2 Software
8.2.1 Simulation Software
8.2.2 Topology Optimization Software
8.2.3 Lattice modeling software
8.2.4 Metamaterial Design Software
8.2.5 Multi-material design software
Chapter 9 Elements for Successfully Printing Metal Parts
9.1 Post-processing technology
9.2 Quality Control Technology
9.3 International standards for additive manufacturing
9.4 About safe production of 3D printing
Chapter 10: Innovative Business Models
10.1 BMW Investment 3D Printing
10.2 Michelin force tire mold manufacturing
10.3 Yachuang Printing Super Sports Car
10.4 PSA Peugeot Citroen's 3D printing strategy
Chapter 11 Each distinctive 3D printing service
11.1 Full: One-stop 3D printing service capability
11.2 Large: Large factory of more than 7,000 square meters
11.3 Precision: Lean production from materials to finished products
11.4 High: 3D printing of lightweight parts
11.5 Wisdom: Operational Ideas of 3D Printing Service Providers
Chapter 12: 3D Printing towards Industrialization
12.1 GE's Four Declarations on Promoting Additive Manufacturing
12.2 Large-scale production of Airbus propulsion 3D printed structural parts
12.3 3D printing technology in the field of aircraft engines
12.4 3D printed rocket engine status and progress
12.5 Siemens promotes the integration of 3D printing and industrial production
12.6 HP enhanced 3D printing technology competes with injection molding process
The thirteenth chapter of the rapid development of 3D printing technology
13.1 Equipment: Jumping innovations
13.2 Materials: Machine vision for batch identification of materials
13.3 Applications: Demand leads the industry
Appendix 1 Technical Terminology Notes
Appendix 2 List of major 3D printing equipment manufacturers (in no particular order)
Appendix 3 A picture of metal 3D printing
Appendix 4 Machine tool manufacturers in the field of cross-border to 3D printing
Appendix 5 References
Appendix 6: Chart
(Editor)
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