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A Study of the Form Design of Household Medical Care Bed on Kansei Engineering Theory Wei Zheng1, a , Qingsen Xie2,b, Yan Jiang3,c 1Tianjin Key Laboratory of Equipment Design and Manufacturing Technology, Tianjin University, Tianjin, China 2School of Mechanical Engineering, Tianjin University, Tianjin, China aivyzhengwei@aliyun.com, b576551171@qq.com, clinahilina@126.com Key words: Kansei Engineering, Semantic Differential, Household Medical Care Bed.
Conclusion At present, Kansei Engineering has been proven as an effective method in product designs.
Packaging Engineering, 2008, 29(6) : 158
Kansei Engineering [M].
A Study of the Form Design of Water Jug Based on Kansei Engineering Theory [J].Journal of Donghua University, 2010.4

Predicted Model of Cutting Force for Single Diamond Fast Milling Hard-brittle Materials Hu Shanshan1, a, Chen Chenggang1,b , Hu Yingning 1,c and Zheng Dongrui1,d 1 College of Mechanical Engineering, Guangxi University, 530004 Nanning, PR China achloee_2000@163.com, bbadnmqj@163.com chyn@gxu.edu.cn, d215574085@qq.com Keywords: Diamond fast milling; Hard-brittle materials; Predicted model of cutting force Abstract.
Researches on the cutting force model of hard-brittle materials were originally from cutting force of metal materials.
Cutting force predicted model of four materials.
Table 2 is cutting force predicted model of different materials.
Liao: Journal of Materials Processing Technology Vol. 65 (1997), p.1-10 [2] Li Yuan, Huang Hui, Zhu Huoming, etc: DIAMOND & ABRASIVES ENGINEERING, Vol. 130 (2002), p.15-19 [3] XIE Guizhi SHANG Zhentao SHENG Xiaomin, etc: Journal of Mechanical Engineering , Vol.47 (2011), p 169-176 [4] I.S.

The Study of Eliminate Companies Seven Wastes of Enterprises Based on the Theory of Industrial Engineering and Lean Production Jinchang Zhang1, a, Hong Yin1,b * and Huimin Jia1,c 1 Faculty of Mechanical and Electrical Engineering, Kunming University of Science and Technology, Kunming, Yunnan, 650500, China a2858520056@qq.com, b13669754869@163.com, c1104266983@qq.com Keywords: Seven wastes, Industrial engineering, Lean production, AHP.
Industrial Engineering Methods. (1) Four principles of ECRS.
Four principles of ECRS was an analysis and optimization techniques of industrial engineering.
It divides the business of the material into three categories: A classification of materials, a critical minority materials; B classification materials: relatively minor and the quantity of materials is large; C classification materials: minor majority of materials. (2) Fool Proof.
Fundament of Industrial Engineering, Beijing : China Machine Press , 2010.

,LTD, Baotou 014000 , China aemail: ivyklj@163.com Keywords: Metasynthesis；Complex System; Hall for Workshop of Metasynthetic Engineering Abstract.
Based on analyzing key technology about hall for workshop of metasynthetic engineering of joint demonstrating，the HWME(Hall for Workshop of Metasynthetic Engineering) of joint demonstrating of equipment system is established.
Metasynthesis Metasynthesis originated in systems engineering.
Based on analyzing key technology about hall for workshop of metasynthetic engineering of joint demonstrating，the HWME(Hall for Workshop of Metasynthetic Engineering) of joint demonstrating of equipment system is established.
The theory and practice in system engineering,2002(5) ,1-7

Smart Building Materials of BIM and RFID in LifeCycle Management of Steel Structure XIE Yunfei1, 2, a, LIChunxiang2, b, Li Zhihui3, c 1Nantong Shipping Vocational& Technical College, Nantong Jiangsu, 226010 2Department of Civil Engineering, Shanghai University, Shanghai, 200072 3Guangxia Construction Group ashxieyunfei@163.com,bshlcxxyf@163.com, clizhihui@163.com Keywords: Smart building material, BIM, RFID, Lifecycle management, Steel structure.
Smart Building Materials of BIM and RFID Concept and Characteristics of BIM.
BIM is called another revolution in building engineering area after the revolution of throwing-drawing board by CAD.
Application of Smart Building Materials about BIM and RFID in the Whole Life Cycle Management of Steel Structure BIM is the Key Technology of Building Lifecycle Management.
It is necessary for technology core of BIM if BLM is applied to engineering practice truly.

advergara@usal.es, bmprubio@usal.es, cmlorenzo@usal.es Keywords: Interactive virtual platform, virtual laboratory, concrete compression tests, engineering education.
Taking this into account, an interactive virtual platform (IVP) is presented in this paper for enhancing students´ self-learning of one of the most commonly used in engineering material tests: the compression test for concrete samples.
In order to carry out such innovative teaching approach, a computational modeling of a virtual materials laboratory was developed including an interactive compression test machine.
Within this framework, a methodological approach based on the use of computational didactic tools is exposed in this paper, linked to the teaching of one of the most commonly material tests used in engineering: the compression test for concrete samples.
Consequently, during the later compression test performed in the real materials testing laboratory a source of problems is avoided.

Teaching System Design of “Systems Engineering” Curriculum in Industrial Engineering Liang Di , Wang Lili School of Mechanical Engineering School of Mechanical Engineering, Shenyang University Shenyang University, Liaoning Province, China Liaoning Province, China sydxld@163.com, sy-wll@163.com Index Terms –industrial engineering, systems engineering, teaching system, design Abstract-This paper is concerned with teaching system construction of “systems engineering” curriculum according to the characteristics and developing trend of industrial engineering.
Especially in some key points, difficulties, case representation and discussion, such as integrity analysis of basic properties, through the PPT show of “system analysis for Olympic engineering” and so on, to strengthen the intuitionism of systems engineering theory, stimulate student's study enthusiasm, and make the class teaching more vivid and teaching more efficient.
Expand Students’ Knowledge Scope According to the curriculum content, the teachers appoint some representative books as the expansion materials which promote students to study actively, deepen the students' understanding of the course and understand the situation of academic frontier development.
It has two styles: 1) List Auxiliary Materials.
Through the course notes of “Systems Engineering”, the relevant case materials of the course will be introduced to broaden students' view.

Research on Materials Tracking in Toy Production Based on the Internet of Things Yulian Cao1, a, Wenfeng Li1, b, Wei Song1, c 1School of Logistics Engineering, Wuhan University of Technology, Wuhan, Hubei, 430063, China ayalianjingren@126.com, bliwf_cn@126.com, csongwei28@163.com Keywords: Internet of Things, materials tracking, production, batch management Abstract.
Then it proposes the architecture of the toy production material tracking system based on key technologies of the Internet of Things.
Many SMMEs start their information management engineering recent years, which is aim to improve production efficiency and enhance core competitiveness through business process reengineering and resource optimization.
The system uses the key technologies of the Internet of Things (with RFID, bar code, WSN) to solve the difficulties in toy material tracking.
Research on the architecture of Internet of things. 2010 3rd International Conference on Advanced Computer Theory and Engineering (ICACTE), 2010 IEEE, V5:484-487

The Key Technologies of Belt Grinding of Glass Fiber Reinforced Plastic Composite Lina Si1,a , Yun Huang1,2,b , Zhi Huang1,2,c and Yufu Wang1,d 1 College of Mechanical Engineering, Chongqing University, Chongqing, P.R.
China, 400044 2 Chongqing Engineering Reserch Center for Material Surface Precision Machining and Whole Set Equipment,Chongqing University, Chongqing, P.R.
In theory, the key reasons for this phenomenon may be: ⑴ belt (material, size, binders); ⑵ round of contacts trough; ⑶ round of the hardness of contact.
Although the small amount of protrusion of the abrasive belt was shallow, however, due to more abrasive at the same time to participate in the work, a higher rate of removal of materials, and the better surface quality.
Huang: Modern Abrasive Belt Grinding and Engineering Applications (Chongqing University Publications, China 2008).

This special issue of Key Engineering Materials journal is to communicate the latest progress and research of new theory, technology, method, equipment in materials processing and manufacturing automation technology field, and to grasp the forefront technological and research trends worldwide, which will drive international communication and cooperation of production, education and research in this field.
The major topics covered by the special issue include Experience and Paper of Education in Special Machining Technology, Process Monitoring and Quality Control of Manufacturing Systems, Industrial Robot Technology, Agile Manufacturing, Intelligent Manufacturing, Green Manufacturing, Virtual Manufacturing, Networked Manufacturing, Computer Integrated Manufacturing System and Contemporary Integrated Manufacturing System, Product Lifecycle Management, Computerized Numerical Control System and Flexible Manufacturing System, Precision Machining Technology, CAD/CAE/CAPP/CAM and Application of Product Data Management, Logistics Engineering and Equipment and Other Related Topics and so on.
The guest editors would like to thank the contributors of papers, the reviewers and the Key Engineering Materials journal for helping put together this special issue.
Keyword: Machining Technology, Process Monitoring and Quality Control of Manufacturing Systems, Industrial Robot Technology, Agile Manufacturing, Intelligent Manufacturing, Green Manufacturing, Virtual Manufacturing, Networked Manufacturing, Computer Integrated Manufacturing System and Contemporary Integrated Manufacturing System, Product Lifecycle Management, Computerized Numerical Control System and Flexible Manufacturing System, Precision Machining Technology, CAD/CAE/CAPP/CAM and Application of Product Data Management, Logistics Engineering and Equipment