This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of vehicle thermal management system (VTMS), such as the structural design, control strategy and thermal flow analysis for the thermal management system of battery pack, 5G communication module and laser radar. We encourage prospective authors to submit related distinguished research papers on the subject of both: theoretical approaches and practical case reviews. Please name the title of the submission email with ''paper title_workshop title''.
This workshop aims to provide a platform for researchers in industry, research institutes and universities to show and exchange their latest research needs and achievements in their respective fields, to build more cooperation opportunities. We encourage prospective authors to submit related distinguished research papers focus on the subject of both: theoretical and experimental results in functional materials and coatings. Please name the title of the submission email with ''paper title_workshop title''.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of Nano Science and Technology. We encourage prospective authors to submit related distinguished research papers on the subject of both: material design and forming technology research. Please name the title of the submission email with ''paper title_workshop title''.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of New Energy Materials and Devices. We encourage prospective authors to submit related distinguished research papers on the subject of both: Design and Preparation of New Energy Materials and Manufacture Forming Technology. Please name the title of the submission email with ''paper title_workshop title''.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of Thermal Metamaterials. We encourage prospective authors to submit related distinguished research papers on the subject of theory, experiment, and application in thermal metamaterials. Please name the title of the submission email with 'paper title_workshop title'.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of manufacturing equipment such as CNC machine tools and industrial robots. We encourage prospective authors to submit related distinguished research papers on the subject of reliability manufacturing, reliability design, and reliability optimization of CNC machine tools, industrial robots, and other manufacturing equipment. Please name the title of the submission email with 'paper title_workshop title'.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of cold rolling and annealing technology of high grade thin strip. We encourage prospective authors to submit related distinguished research papers on the subject of cold rolling technology, annealing technology, shape and surface quality control, treatment of strip deviation defect in furnace. Please name the title of the submission email with 'paper title_workshop title'.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry on the application and development of industrial robots, the structural design and control of bionic robots, and mechatronics equipment and system design. We encourage prospective authors to submit related distinguished research papers on innovation and optimization design of bionic robots configuration, modeling and control of robot kinematics and dynamics, and dynamic characteristic analysis of robots, machine vision and image processing which include image processing, visual servo control, identification and location of robot vision, photoelectricity online examination technology. Please name the title of the submission email with 'paper title_workshop title'.
Liangwen Wang works as a professor and doctoral supervisor at Zhengzhou University of Light Industry. Besides he serves as the chief electromechanical engineer of the national first-class enterprises in China and was selected as a national outstanding teacher, an outstanding craftsman talent of Henan Province, an academic leader of key disciplines of Henan Province, the head of the innovation team "Research and application of key technologies for the design and operation of mechanical (light industry) equipment" of Henan Province, an academic and technical leader of Henan Province Education Department, and an outstanding leader of industrial new product and new technology development of Henan Province. He is the reviewer of Science and Technology Key Project of the Ministry of Science and Technology of China, National Higher Education Teaching Achievement Award of the Ministry of Education of China. Moreover, he is the reviewer of many important journals at home and abroad. He has hosted and participated in 6 projects supported by National Natural Science Foundation of China, 1 project supported by National Science and Technology Support Program of China, 3 projects supported by National Torch Program of China and more than 10 provincial projects in recent years. He published more than 150 academic papers in domestic and international journals. He completed 39 provincial-level scientific and technological achievement appraisal projects and won 8 provincial and ministerial-level scientific and technological progress awards and 30 departmental-level scientific and technological progress awards. He owns more than 50 national patents (software copyrights) including 35 invention patents. Through the mode of industry-university-research cooperation, he has been engaged in the research and development of electromechanical products for 30 years and has accumulated experience in developing nearly 100 electromechanical products, which made outstanding contributions to the development of related industries and the local economy.
Precision instruments and machines are essential elements of an industrial society that integrates the application of precise mechanism, optics, electronics and computer technology. Indeed, modern industry is critically dependent on precision instruments and machines ranging from those for manufacture of integrated circuits to machine for the manufacture of optical components to machines for the manufacture of automobiles. Therefore, precision instruments and machines play an extremely important role in the development of China's high-end manufacturing industry.
This workshop aims to provide a platform for researchers in industry, research institutes, and universities to show and exchange their latest research needs and achievements in their respective fields, to build more cooperation opportunities, to show the latest research results in the field of precision instruments and machines such as Coordinate Measuring Machine, Gear Measuring Center, Special Measuring Equipment, CNC Machine Tools and so on. We encourage prospective authors to submit related distinguished research papers focus on the subject of structural design and optimization of precision instrument and machine, new precision instrument and machine, novel precision theory, novel principle for error measurement and modeling, and other precision equipment. Please name the title of the submission email with ''paper title workshop title''.
Haitao Li works as a master supervisor at Shaanxi University of Science & Technology and was selected as a Senior member of China Mechanical Engineering Society, Senior member of Chinese Instrument Society and Senior member of Chinese Society for Artificial Intelligence. He presided over more than 10 national, provincial and enterprise commissioned projects such as Youth Fund of National Natural Science Foundation of China, National Science and Technology Major Sub-project of High-grade CNC Machine Tools and Basic Manufacturing Equipment, etc. Moreover, he published more than 10 academic papers indexed by SCI and Ei and owns more than 10 national invention patents, three invention patents were converted to enterprises. A variety of special measurement equipment is also successfully developed and put into service, such as Laser Interferometer Ball Bar, Integrated Measuring Machine for Ball Screw, 4-axis Gear Measuring Center, 5-axis Coordinate Measuring Machine, Rubber Roll online Visual Measurement System.
The development of electric vehicles and vehicle engineering technologies has generated a great deal of progress and human beings' welfare recently. Transport and mobility have experienced a significant advance in the last decade out of these technologies. Artificial Intelligence (AI) in self-driving cars makes autonomous vehicles capable of making decisions in real-time. Furthermore, several researchers are exploring the use of machine learning in the new energy vehicles system.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of New Energy Vehicles. We encourage prospective authors to submit related distinguished research papers on the subject of the learning-based and data-driven modeling and control of electric vehicle powertrain systems, energy management, eco-driving, energy-efficient vehicles, connected and autonomous vehicles, battery aging modeling, state of health estimation, and life prediction for control. Please name the title of the submission email with "paper title_workshop title".
Yong Wang is a Ph. D. student at the National Engineering Laboratory for Electric Vehicles of Beijing University of Technology. He received his MS degree in mechanical engineering at Beijing Institute of Technology in 2021 and received his BS degree in mechanical manufacturing and automation at Shandong University in 2018. He also was a visiting student at the Institute for AI Industry Research (AIR) of Tsinghua University. His research areas include applications of deep reinforcement learning and learning-based method to new energy vehicles. Moreover, he has several patents and published several papers indexed by SCI and Ei.
Lightweight is the fundamental way to improve equipment performance and has become an important development direction in the field of aerospace. However, the harsh requirements of service conditions for uniform strength and ductility, and load capacity of components are contradictory to the poor mechanical properties and high stress sensitivity of lightweight materials, which restricts the process of lightweight equipment. In addition, with the increasingly extreme service environment, the service safety of equipment is also facing new challenges.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of Aerospace Manufacturing Engineering. We encourage prospective authors to submit related distinguished research papers on the subject of both: forming technology and fatigue behavior research. Please name the title of the submission email with ''paper title_workshop title''.
Xi Zhao works as a professor and doctoral supervisor at the North University of China and was selected as Shanxi Province's outstanding youth academic leader and National Defense Technology Innovation Team direction leader. His research areas include lightweight manufacturing and service safety of aerospace advanced equipment. In recent years, he has been in charge of national science and technology major projects, a mating project of State Administration of Science, Technology and Industry for National Defense, and regional innovation major projects of Military Science and Technology Committee, etc. In the past three years, 12 million longitudinal research funds have been paid. More than 30 related research productions were published in IJF, JMA, MSEA, JAC, and other international journals. He owns 12 authorized patents. Moreover, he won 2 Second Prizes for Shanxi Science and Technology Progress, 1 Second Prize for National Defense Science and Technology Progress. published 1 monograph.
Surface Science and Technology play an increasingly important role in excavating material potential in the materials world, which can prolong the service life of components by improving their wear resistance, corrosion resistance, and fatigue resistance of the surface and without affecting the tough interior of the components. Further, the surface modification of components has an advantage on hardening because less expensive low-carbon and medium-carbon steels can be surface hardened without the problems of distortion and cracking associated with the thorough hardening of thick sections.
This workshop aims to bring together the research accomplishments provided by researchers from both academia and industry. The other goal is to show the latest research results in the field of Surface Science and Technology. We encourage prospective authors to submit related distinguished research papers on the subject of Novel Environment-friendly Surface Modification Technology with High Efficiency and Promoted Properties. Please name the title of the submission email with “paper title_ workshop title”.
Jing Hu is a professor and doctoral supervisor at Changzhou University of China. She got her Ph.D. at Shanghai Jiao Tong University in 2004 and worked as a postdoc at Auburn University (USA) from 2004 to 2006. She is a senior member of Chinese Heat Treatment Society and Director of Changzhou Heat Treatment Society. She presided over 30 research projects including 3 projects supported by National Natural Science Foundation, 5 major projects supported by Department of Science and Technology of Jiangsu Province. Based on her research work, she published more than 200 academic papers including over 100 papers indexed by SCI and Ei, and owns 10 national invention patents.
Structural health monitoring (SHM) based on distributed sensor networks and permanently integrated on the surface or embedded inside the structure is a revolutionary and innovative technology to determine structural integrity of industrial equipment. SHM, as well as progonosis and health management has become an important enabling technology for intelligent operations and maintenance of high value-added equipment in aerospace engineering, mechanical engineering, civil engineering, rail traffic engineering.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of Structural Health Monitoring and Progonosis Health & Management. We encourage prospective authors to submit related distinguished research papers on the subject of advanced sensing technology, damage detection, and quantification, signal processing, life prediction, smart structures, system integration, digital twins. Please name the title of the submission email with ''paper title_workshop title''.
Yishou Wang serves as a professor and doctoral supervisor at School of Aerospace Engineering of Xiamen University. He presided over more than 10 national projects supported by National Natural Science Foundation, National Key Research and Development Program of China, and Defense Industrial Technology Development Program, etc. Moreover, he published more than 80 academic papers including over 55 papers indexed by SCI, and owns more than 20 national invention patents.
With the development of advanced manufacturing systems and intelligent control technology, intelligent control has rapidly moved to various professional fields and applied to the control problems of various complex controlled objects, such as industrial process control systems, robotic systems, modern manufacturing systems, traffic control systems, etc in the past ten years. .
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of advanced manufacturing systems and intelligent control technology. We encourage potential authors to submit relevant outstanding research papers on topics such as advanced manufacturing systems, intelligent controllers, distributed manufacturing systems, microelectronics, and information technology. Please name the subject of the submitted email "paper title_workshop title".
Cao Yang is a professor at the School of Mechanical Engineering of Nantong University/Jiangsu Wind Energy Application Technology Engineering Center. His main research areas include mechatronics technology, renewable energy, advanced manufacturing theory and technology, fluid transmission control. He presided over or participated in the completion of 3 national-level projects and 4 provincial-level projects. He won the second prize of the Technology Invention Award of the Ministry of Education's Scientific Research Outstanding Achievement Award, the first prize of the China Industry-University-Research Cooperation Innovation Achievement Award, the first prize of the China Petroleum and Chemical Automation Industry Science and Technology Progress Award, the third prize of the Jiangsu Science and Technology Award, The third prize of China Machinery Industry Science and Technology Award. He owns 36 invention patents in which 30 invention patents were authorized. He published 33 papers and participated in the compilation of 2 textbooks.
Even though dealloying has a long history in materials research, its mechanisms are only partly understood. Their study touches upon the thermodynamics of driven systems, on the topology of bicontinuous microstructures and on its evolution during coarsening. This workshop aims to bring together the recent research studies in the field of dealloyed nanoporous materials. We encourage prospective authors to submit related distinguished research papers on the subject of dealloyed nanoporous materials including corrosion science, topology and morphological evolution, mechanics of materials, microstructure and characterization, catalysis, and functional applications. Please name the title of the submission email with “paper title_workshop title”.
Yawei Li completed his Ph.D. study in chemical engineering at Drexel University in 2019, followed by postdoctoral studies at National Renewable Energy Laboratory in the U.S. He joined various research projects supported by U.S. Department of Energy and collaborated with many industrial corporations. Dr. Li joined Shanxi University in 2021 as a professor at School of Chemistry and Chemical Engineering. His areas of expertise include electrocatalysis of fuel cell and electrolysis reactions; electrode fabrication and materials development. He published more than 20 peer-reviewed journal publications and holds 2 U.S. patents based on these projects.
In manufacturing industries such as metallurgy, machinery, packaging, etc., inspection is required in all aspects of the manufacturing process including production process monitoring, production safety monitoring, equipment operation monitoring, product quality monitoring, etc. Artificial intelligence is advancing by leaps and bounds, and industrial inspection is becoming more and more intelligent. To make the manufacturing process more stable, efficient, and safe, it is necessary to vigorously develop intelligent inspection technology deeply integrated with the manufacturing process, and continuously improve the automation and intelligence level of the manufacturing process. This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of artificial intelligence in industrial inspections. We encourage prospective authors to submit related distinguished research papers on the subject of visual inspection, defection detection, fault diagnosis, safety monitoring, etc. Please name the title of the submission email with ''paper title_workshop title''.
Lizuo Jin received a Ph. D. in Control Science and Engineering at Southeast University in China and was a postdoctoral fellow at the Institute of Industrial Technology of University of Tokyo, and at the National Institute of Information Science in Japan. He is the committee member of Information Fusion Branch of Chinese Society of Aeronautics and Astronautics, the member of IEEE, ACM, SPIE, and Chinese Society of Automation. Moreover, Prof. Jin is mainly engaged in research in the fields of computer vision, artificial intelligence, information fusion, and edge computing, and published more than 100 research papers in journals and conferences, and owns 20 patents.
Graphene is a planar monolayer of carbon atoms arranged into a two-dimensional honeycomb lattice. It has demonstrated a variety of intriguing properties. For those exceptional properties, which make graphene can be an ideal strengthening material for MMCs. And it is important to develop lightweight, high strength, high wear, and corrosion resistance, high thermal and electrical conductivity graphene reinforced MMCs for military and civil industries.
This workshop aims to offer an opportunity for those researchers from metal matrix composites to know each other and let them show their latest research works in this field. We encourage authors to submit related research papers on the subjects of fabrication, mechanical properties, microstructure, phase formation, and the wear and corrosion resistance performance of graphene reinforced metal matrix composites. And of course, other related papers are also welcomed. Please name the title of the submission email with ''paper title_workshop title''.
Zengrong
Hu obtained his Ph. D. degree from NUAA in China in 2017. Dr. Hu has an extensive research background in the areas of graphene reinforced metal matrix composites. He wrote over 50 peer-reviewed journal publications and owns more than 30 national invention patents. His work encompasses a few important topics including laser 3D printing, graphene-metal composites, and lightweight metal materials. He also closely worked with industries of advanced manufacturing.
Advanced green flexible forming technology is a method of precision plastic forming of products by using flexible forming equipment and flexible tools. This technology has the outstanding advantages of strong adaptability, wide adaptability, low die cost, high material utilization rate, energy-saving and environmental protection. Using flexible forming technology, agile, efficient and intelligent green manufacturing can be easily realized. For different types of metal complex components, flexible green forming technology can be divided into flexible bending forming technology, incremental forming technology, spinning forming technology, flexible medium forming technology and so on. Flexible forming technology has made important engineering applications in aerospace, nuclear energy engineering, rail transit vehicles, petrochemical and other related fields.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of advanced green flexible forming technology and equipment. We encourage prospective authors to submit related distinguished research papers on the subject of research status and development trends of various flexible forming technologies and equipment, forming technology mechanism and forming process optimization, and so on. Please name the title of the submission email with ''paper title_ workshop title''.
Prof. Xunzhong Guo works as a professor at Advanced forming research institute of College of Material Science and Technology of Nanjing University of Aeronautics and Astronautics in China. Based on the major needs of aerospace engineering, he has long been engaged in the research of flexible forming mechanism. He has a series of research results on key technologies and equipment of precision plastic forming and won the second prize of Jiangsu Science and Technology Award in 2021, the first prize of Jiangsu Science and Technology Award in 2016, and the first prize of Science and Technology Progress Award of Jiangsu Education Department in 2016. He presided over 30 projects with a total project funding of more than 25 million yuan. He published a monograph and authorized more than 40 invention patents, core patents which the silver medal of the Geneva International Invention Exhibition and China Invention Association Innovation Gold Award was won. Moreover, he published more than 60 important academic papers on important international/domestic journals in machinery and manufacturing and approved 6 software copyrights.
Equipment automation is the foundation of intelligence manufacturing and plays an increasingly important role in the industry, agriculture, health care, etc., which shows the characteristics of interdisciplinary integration of optical-electric-mechanical-sensor technology. Precision measurement and detection are important elements of Equipment automation. With the development of computer and artificial intelligence technology, equipment automation is integrating digital and intelligent elements and developing towards the next generation.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The goal is to show up-to-date research results in the field of equipment automation and precision measurement. We encourage prospective authors to submit related distinguished research papers on the subject of both: equipment automation, precision measurement, and detection research. Please name the title of the submission email with ''paper title_workshop title''.
Liming Xu is a doctoral supervisor at Shanghai Jiao Tong University of China, a senior member of Chinese Mechanical Engineering Society, and a member of Manufacturing Technology and Equipment Committee of Shanghai. He presided over more than 20 national and enterprise R&D projects such as National Natural Science Foundation, National Sci. & Tech. Major Project which are based on automotive, steel, and energy industries, etc. Moreover, He published more than 100 academic papers and owns more than 60 national invention patents. He won more than 10 national and provincial Sci. & Tech. awards including Sci. & Tech. Progress First Award of Ministry of Education, Shanghai Technological Innovation First Award, and National Outstanding Patent Award, etc.
Energy harvested directly from sunlight offers a desirable approach toward fulfilling, with minimal environmental impact, the need for clean energy. Solar energy is a decentralized and inexhaustible natural resource, with the magnitude of the available solar power striking the earth’s surface at any one instant equal to 130 million 500 MW power plants. However, several important goals need to be met to fully utilize solar energy for the global energy demand. First, the means for solar energy conversion, storage, and distribution should be environmentally benign, i.e. protecting ecosystems instead of steadily weakening them. The next important goal is to provide a stable, constant energy flux. Collecting and storing solar energy in chemical bonds, as nature accomplishes through photosynthesis/photoelectrochemistry, is a highly desirable approach to solving the energy challenge.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry to show and exchange their latest research needs and achievements in their respective fields, to build more cooperation opportunities. We encourage prospective authors to submit related distinguished research papers on the subject of both: Photo (electro-) catalytic water splitting and hydrogen generation. Please name the title of the submission email with ''paper title_workshop title''.
Changhai Liu received his Ph. D. from FUNSOM at Soochow University in 2015. He works as an associate professor at Changzhou University. His research interests focus on electrochemistry and photoelectrochemistry for highly-efficient energy conversion. He published over 40 articles in highly-rankly JCR-referenced journals as a first/corresponding author, co-authored more than 50 peer-reviewed papers, which were cited over 3500 times with an h-index of 29 according to the Google Scholar Citation database. He is the principal investigator of some national and provincial projects including the NSFC grants, Jiangsu provincial department of science and technology, international co-operation project of Changzhou city, and State Key Laboratory of Jiangsu, as well as many industrial projects.
As the demand for energy increases in modern society, energy shortage and environmental pollution issues associated with fossil fuels are becoming serious. To alleviate these issues and reduce the dependence of our daily life on fossil fuels, economic and efficient energy storage technologies based on renewable sources need to be developed and adopted. Rechargeable electrochemical energy storage materials and devices have attracted considerable attention and have been regarded as promising next-generation electrochemical energy storage systems because of their high theoretical specific capacity, lowest standard potential, low weight and electrochemical equivalent.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of Electrochemical Energy Storage Materials and Devices. We encourage prospective authors to submit related distinguished research papers on the subject of both: material design and advanced characterization technology research. Please name the title of the submission email with ''paper title-workshop title''.
Yibo He is a doctoral supervisor at Northwestern Polytechnical University. She published 11 academic papers as the first author in international high-level journals such as Angew. Chem. Int. Ed., Energy Environ. Sci., Adv. Energy. Mater. and so on. In addition, she was selected as the Youth Project of "Shaanxi High-level Talents Introduction Plan". Moreover, she also presided over projects supported by National Natural Science Foundation.
Surface coatings and functionalization, and additive manufacturing(3D printing)technology are playing increasingly important roles in the innovation-driven development of countries or regions around the world, which shows the characteristics of interdisciplinary integration and deep integration. These technologies, fabricated materials, and components are some of the most active research areas in the interdisciplinary fields of material science engineering, advanced manufacturing technologies and industry applications.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research results in the field of surface modification and additive manufacturing technology. We encourage prospective authors to submit related distinguished research papers on the subject of both: material design and forming technology research. Please name the title of the submission email with ''paper title_workshop title''.
As one of the main materials for lightweight products, carbon fiber reinforced composite has become more and more widely used in various fields. However, during the molding process and application process, the development cycle of new products is long, and the product quality is difficult to accurately control. Researchers have found that the main reason is that the molding mechanism needs to be further improved.
This workshop aims to bring together research accomplishments from academia and industry by researchers. Another's goal is to show the latest research results in the field of forming mechanisms of CFRP. Potential authors are encouraged to submit outstanding research papers on the new forming method, forming mechanism, molding process control, optimization of molding process parameters, finite element analysis of the forming process, mechanical properties of products. Please name the title of the submission as ''Paper title seminar title''.
Complex surfaces play vital roles in some key components used in a variety of industry fields such as power, national defense, vehicles, and aerospace, etc. The machining requirements for these complex surfaces have been involving simple shape and position accuracy in past decades towards high performance nowadays. With the increasing demands for the quality of complex surfaces, the precision/super-precision machining theory and corresponding technology in the nanoscale have become a hot topic. the machining process with classical machining tools and robots is normally driven by the locations of a cutter, therefore, studying surface forming theory, mechanical dynamics, and vibration, mechanical manufacturing mechanisms, and tool path design are becoming essential.
This workshop aims to bring together the research accomplishments provided by researchers from academia and the industry. The other goal is to show the latest research findings in the field of Precision/super-precision machining. We encourage prospective authors to submit related distinguished research papers on the subject: surface forming theory, mechanical dynamics and vibration, tool path design, and machining mechanism. Please name the title of the submission email with ''paper title_workshop title''.
Homogeneous materials are comprised of multiple domains with different properties at the microscopic length scale, but behavior as homogeneous materials from a macroscopic perspective with remarkable physical properties in general superior to the properties of their individual components. They are widespread in nature, including soils, geological formations, biological tissues, and actively used in many modern industrial and biomedical technologies as advanced smart and composite materials. The interface plays an important and sometimes compelling role in determining the macroscopic properties of heterogeneous materials. Control of interface properties at multiscale has become one of the most efficient approaches to optimize the properties of heterogeneous materials.
This workshop aims to bring together the research accomplishments provided by researchers from academics and the industry. The other goal is to show the latest research results in the field of heterogeneous materials at multiscale. We encourage prospective authors to submit related distinguished research papers focus on the subject of: heterogeneous materials. Please name the tile of the submission email with “paper title _ workshop title”.
Plastic forming and free-form manufacturing is energy-saving green manufacturing technology. It mainly involves plastic forming technology of metal materials, special deformation technology, metal powder 3D technology, laser surface melting and remanufacturing engineering technology, etc. It belongs to the category of equal material manufacturing and additive manufacturing, this field has a wide range of research, numerous scholars, and rapid technological development, which has a great impact on the manufacturing industry. Therefore, experts in this field are welcome to contribute actively to the topics of metal material plastic forming control, laser surface melting coating remanufacturing, and metal powder laser free-form manufacturing, participate in academic discussions and exchanges in this field and jointly promote technological progress in this field.