Search results

a wendy6363@163.com b louhaijun555@126.com Keywords: International EPC Cement Engineering Projects, Key Risk Factors, Enginerring Risk Management Information System , AHP-MFCE Model Abstract.
Preamble With the fast growth of the global economy, cement, as one of the chief building materials, maintains a steady growth trend in terms of the demand; the cement industry, affected by the change of the world economic pattern and restrained by the raw materials for production and the environment protection, is confronted with the upgrading of the industrial structure and the adjustment of the production bases, so it calls for the sustained increase of its scale of investment.
Key Risk Factors in International EPC Cement Engineering Projects This paper classifies the risks in international EPC cement engineering projects into three categories.
H5 Compensation for breach of contract: the improper provisions for the ceiling fines or penalties and the excessive undertaking of the compensation risks [5]. 2.3 Risk of Business Operation [6,7] I1 Company Registration: Different risks confronted and by whatever means to engage in engineering projects in the country of the engineering project; I2 Service Licensing and Visa Handling: the ratio of labor services export, procedures, visa, quantity and other problems; I3 Import and export of equipment and materials: the import and export of equipment and materials for production and construction and authentication system for production equipment; I4 Insurance business: Different insurance systems, taxes, premium rates, limitation of liability and indemnity clauses, etc; I 5.
Risk Management and Application of International EPC Cement Engineering Projects 1 Engineering Risk Management Information System (ERMIS) The objective of risk management is not to remove all risk factors from the engineering projects but to establish an organizational framework to help decision makers to effectively manage risks, particularly the key risks (Perry and Haynes, 1985).

Application of Computer in Material Science and Engineering SENG Dewen Hangzhou Dianzi University, Hangzhou, P.R.China 310018 sengdw@163.com Keywords: information technology; material science; material engineering Abstract.
The application of computer in material science and engineering is developing increasingly.
Computer application technology continues to evolve, gradually and comprehensively solve the major technical problems in materials science and engineering.
The paper analyzed the substances of computer application in the materials science and engineering, optimization, curve and fitting expression and crystal growth.
Introduction Computer application in materials science and engineering is pioneering the development.

To decrease corrosive loses and guarantee the safety of engineering structures, extensive studies are invested to understand corrosion mechanisms and rules of engineering materials, and to develop technologies on corrosion control and protection.
A database, named Database on Corrosion of Ocean Engineering Materials and Structures (CDOSDB), was planned.
To decreases corrosive loses and guarantee the safety of engineering structures, extensive studies are invested to understand corrosion mechanisms and rules of engineering materials, and to develop technologies on corrosion control and protection.
Data’s share and effective utilization are very useful for deeply corrosion study of ocean engineering materials and structures.
With the data increasing and CDOSDB further extended, CDOSDB will provide much more data of ocean engineering materials and structures.

Curing Regime and Evaluation of Engineering Properties of AAM Specimens.
Nguyen, Characteristics of a Fly Ash-Based Geopolymer Cured in Microwave Oven, Key Engineering Materials 850 (2020) 63-69
Nguyen, Evaluation on Roles of Activated Silicon and Aluminum Oxides for Formation of Geopolymer from Red Mud and Silica Fume, Key Engineering Materials 777 (2018) 513-517
Nguyen, Effect of Alkaline Activators to Engineering Properties of Geopolymer-Based Materials Synthesized from Red Mud, Key Engineering Material 777 (2018) 508-512
Hoang, Leaching behavior and immobilization of heavy metals in geopolymer synthesized from red mud and fly ash, Key Engineering Materials 777 (2018) 518-522

Nano surface engineering is the integration and creation between the nano materials and traditional surface engineering.
Surface Engineering and Nano Surface Engineering The advanced surface engineering and nano surface engineering technology is the key technology of remanufacturing engineering.
The advanced surface engineering and nano surface engineering technology is the key technology of remanufacturing engineering
China Materials Engineering Canon.
[8] Zhu S, Xu B S.: Key Engineering Materials Vol. 280(2005), p.1203 [9] Xu B S, Liu S C and Liang X B.: Chinese Journal of Mechanical Engineering Vol. 39(2003), p.21.

Optimization of Magnesium Alloy Casting Process: An Integrated Computational Materials Engineering (ICME) Approach Xing Yang Changa, Qi Shenb, Wen Xue Fanc and Hai Haod* Key Laboratory of Solidification Control and Digital Preparation Technology (Liaoning Province), School of Materials Science and Engineering, Dalian University of Technology, Dalian, 116024, China a1316917846@mail.dlut.edu.cn, b1139776831@mail.dlut.edu.cn, cfanwenxuedl@mail.dlut.edu.cn, dhaohai@dlut.edu.cn Keywords: Integrated Computational Materials Engineering; Process Optimization; Performance prediction.
Introduction Integrated Computational Materials Engineering (ICME) was first presented at the U.
In recent years, integrated computational materials engineering (ICME) has continued to grow in recognition in the materials science and engineering [7].
McDowell, Key computational modeling issues in Integrated Computational Materials Engineering, Computer-Aided Design. 45 (2013) 4-25
[4] William, et al, Integrated computational materials engineering for advanced materials: A brief review, Computational Materials ence. 158 (2019) 42-48

Discussion about Excellence Engineers Education and Training Program of Materials Science and Engineering L.
Materials science and engineering of Chongqing Jiaotong University, was founded in 2000 based on main disciplines of school and focuses on road constructional materials, who was able award a master' degree in 2000, named key discipline in 2006, selected as special majors by Chongqqing in 2009.
In the materials science and engineering classroom, the boundaries are blurred between science and engineering.
Fig. 1 Talents training mode of materials science and engineering Talents training mode of materials science and engineering was shown in Fig. 1.
materials Physical properties of materials 6 Computer application technology Computational materials science Engineering application software Characteristic knowledge areas 7 Civil engineering materials Engineering material, Cement and concrete, Asphalt and asphalt mixture, Chemical building materials Environmental materials, Functional materials, Building energy-saving materials, Corrosion and protection of materials, Special ceramics, Soil reinforcement principle The major of material science and engineering is a wide major.

The application of natural collagen materials and tissue engineering on repair for exercise-induced meniscus injury Zhi Ping Wang Northeastern University at Qinhuangdao, China dbdxwzp@163.com Keywords: Natural collagen materials; Tissue engineering; Exercise-induced meniscus injury Abstract.
With the development of tissue engineering and materials science, through the research of meniscus tissue engineering to discover novel tissue engineering materials, and further accelerate the research of meniscus tissue engineering, through clinical trials and application of finding appropriate meniscus substitute, which can provide a new mode of treatment for meniscus repair.
Absorbable scaffold material selection is the key in tissue engineering.
It is the organization of cell growth and tissue regeneration site templates, and tissue engineering technology can be a key step in clinical application.
Materials Science and Engineering: C, Volume 30, Issue 1, 1 January 2010, Pages 190-195

Dynamic Property Analysis of Mini Wind Generator for Manufacturing Engineering by FEM Analysis based on Plastic Properties of Structure Materials Shufang Wang1, a 1Shandong KaiWen College of Science & Technology, No. 6196, East Jingshi Road, Jinan, China, 250200 afairy1113@yahoo.cn Keywords: Dynamic property analysis, Mini wind generator, Frame material, FEM analysis, Mode shape displacement.
The material and structure design of the supporting frame is a key factor to ensure the generator work fluently and safely for manufacturing engineering.
A new criterion is proposed to evaluate the dynamic properties of mechanical structure for manufacturing engineering.
The plastic properties of these materials are shown in Table.1.
Epoxy is the most suitable material for the frame with respect to the dynamic properties in manufacturing engineering

Engineering materials suppliers' selections directly affect the quality of the construction and economic benefits.
Introduction Engineering material is the material basis of all kinds of construction engineering.
The general working procedure shown in Fig. 1: Fig. 1 General approach of Value engineering In this paper, the calculation of the materials procurement scheme evaluation by the value engineering theory is the evaluation the coefficient method, which is divided into the following steps to implement [4,5]: Step 1 Analysis of the evaluation index system which has the impact of engineering materials.
Conclusion For construction engineering projects, procurement of materials should follow the basic principle that function should match cost best.
In this paper, VE theory is used to analyze suppliers of engineering materials.