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The Influence of Magnetic Fiber Orientation on the Electric Properties of Conductive Polymer Composite Material by Using Magnetic-Assisted Injection Molding Chen-Yuan Chung1,*, Shia-Chung Chen2, and Kuan-Ju Lin1 1Department of Mechanical Engineering, National Central University, Taiwan 2Department of Mechanical Engineering, Chung Yuan Christian University, Taiwan *Email: cychung@ncu.edu.tw Keywords: magnetic-assisted injection molding, conductive polymer composite material, fiber orientation, conductivity Abstract.
Its related fabrication and technology have become the important issue of development of science and engineering.
Advanced Materials, Vol. 15 (2003), p. 1918-1921
Materials Science Forum, Vol. 936 (2018), 136-141
[9] AC Technology Inc., C-MOLD design guide: a resource for plastics engineers, Advanced CAE Technology, Ithaca, New York, 1995.

Properties of the Cement Paste Mixed with Various Types of Aluminum Sulfate Based Liquid Alkali-Free Accelerator Zheyu Ma1,2,a, Zhenping Sun1,2,b*, Juntao Tian1,2,c Yanliang Ji1,2,d Min Pang1,2,e 1School of Materials Science and Engineering, Tongji University, Shanghai, China 2Key Laboratory of advanced civil engineering materials, Ministry of education, Tongji University, Shanghai, China amzy960224@qq.com, bzhenpingsun@1226.com, ctianjuntao_66@tongji.edu.cn, dTJYanliangJi@tongji.com, e767217039@qq.com Keywords: Liquid alkali-free accelerator; Aluminum sulfate; Diethanolamine; Hydrofluoric acid; Setting time Abstract.
The results in this study may play a specific reference role in the development and production of the alkali-free accelerator, and benefit for the efficient and safe application of the liquid alkali-free accelerator in practical engineering.
Advances in Materials Science & Engineering, 2017, 2017: 1-9
Forum (2012)

Shafiul Ferdous2,b 1Graduate School of Engineering and Science, University of the Ryukyus, 1 Senbaru, Nishihara, Okinawa 903-0213, Japan 2Department of Mechanical Engineering, Khulna University of Engineering & Technology, Khulna-9203, Bangladesh ams_97247@yahoo.com, bmunazeer_218@yahoo.com Keywords: Hybrid composites, Fatigue limit, Fracture behavior, Crack growth Abstract.
Forum, 940 (2018) 79-83
Chen, Effect of Specimen Thickness on Fatigue Limit in Carbon Composites, Advance Material Research, 1110 (2015) 13
Kimata, Development of Advanced Vacuum-Assisted Resin Transfer Molding Technology for Use in an MRJ Empennage Box Structure, Mitsubishi Heavy Industries, Ltd.

Stein in: Ultrahigh Molecular Weight Polyethylene, of Engineered Materials Handbook, American Society for Metals (edited by J.
Koch: Advanced Mater.
Forum Vols. 235-238 (1997), p. 211

The electrical interconnections were established by the technology of electronic packaging and it is a major field in the electronic engineering.
Anderson, Lead-Free Soldering, Green and Sustainable Manufacturing of Advanced Material (2016) 101-134
Pharr, Measurement of mechanical properties by ultra-low load indentation, Material Science and Engineering 253 (1998) 151-159
Shin, Elastic, plastic and cracking indentation behaviour of silicon crystals, Material Science and Engineering 209 (1996) 91-96
Zulkifli, Hardness Variation of Ball Bond Wire Bonding, Advanced Materials Research 399-401 (2012) 1048–1051

Preface As Honorary Chairman of the Executive Committee it is my great pleasure to present the selected refereed papers of the 8th Japanese-Mediterranean Workshop on Applied Electromagnetic Engineering for Magnetic, Superconducting, Multifunctional and Nano Materials, organized in 23- 26 June 2013, in Athens, Greece, constituting a landmark in development of materials, manufacturing and electrical engineering.
It provides a forum for specialists from universities, research centers and industry of various countries worldwide to establish cooperation, to share knowledge and experience and the cross-fertilization of new ideas and developments in the design, analysis, new materials utilization and optimization techniques in the areas of electromagnetics and manufacturing of advanced materials and their industrial applications in modern technologies in nanotechnology/ultraprecision engineering, electricity/electronics, transportation, bioengineering, energy and environment.
The scope of the Conference has been further expanded to include the modern exciting areas, like nanotechnology, ultraprecision engineering, bioengineering and transport.
Therefore, the effort to produce materials with unvaried properties is contradictory to practical material engineering requirements.
Kirko (Research Institute of Physics and Engineering, Russia)  L.

Effect of Quenching and Partitioning Temperatures in the Q-P Process on the Properties of AHSS with Various Amounts of Manganese and Silicon Hana Jirková1, a, Ludmila Kučerová1,b and Bohuslav Mašek1,c 1Research Centre of Forming Technology, University of West Bohemia in Pilsen, Faculty of Mechanical Engineering, Pilsen CZ-30614, Czech Republic ahstankov@vctt.zcu.cz, bskal@vctt.zcu.cz, cmasekb@vctt.zcu.cz Keywords: Q-P process; AHSS, quenching and partitioning temperature Abstract.
In this experimental program the quenching temperature and the isothermal holding temperature for diffusion carbon distribution for three advanced high strength steels with carbon content of 0.43 % was examined.
Quenching and partitioning martensite – A novel steel heat treatment, Materials Science and Engineering A. 438–440 (2006) 25–34
The Effect of Mn and Si on the Properties of Advanced High Strength Steels Processed by Quenching and Partitioning, Materials Science Forum. 654-656 (2010)94-97

Neutron diffraction remains the superior technique for strain analysis, particularly for engineering components with complex geometries.
Consequently, further technical development shall be heavily based on advanced modeling using sophisticated software packages.
The development of such models remains and shall remain the top priority for both academia and industry R&D; however, even the most advanced models will not represent the real phenomena occurring in the alloys unless properly validated with experimental methods such as ND.
Sediako, Residual Strain Characterization of an Advanced Aluminum Marine Alloy Using In-Situ Neutron Diffraction, Light Metals - Applications and Fitness-for-Service Characterization, Materials Science & Technology, (2018) 974-982 [8] J.
Dong, Influence of quenching cooling rate on residual stress and tensile properties of 2A14 aluminum alloy forgings, Materials Science & Engineering A, 674 (2016) 658-665 [20] J.

Quality engineering requirements of modern quality management must be integrated, flexible, standardized, parallel, intelligence and automation direction, the quality of information required to achieve full integration, quality process control and integration, systems integration, inter-enterprise integration[8].
The platform can be solved time and space can not be timely accurate acquisition of discrete heterogeneous quality information, solve engineering changes as a result of product objects and information inconsistencies, achieved product lifecycle process control, quickly configure and develop quality assurance systems.
Knowledge use in an advanced manufacturing environment [J].
[3] Shuzi Yang,Bo Wu,Bin Li, Chinese journal of mechanical engineering ,2006,42(1):1-5 [4] Milagros Rolón, Ernesto Martínez.
UID....Now that's gonna leave a mark.USA Department of NASADefense for Unique Identification and e-Business Forum, 2008

Modern high-strength Al-Li alloys that due to the application of Li [1-3] have lower density than traditional Al alloys are used in the aerospace engineering.
The strength of welded joints of Al-Li alloys obtained by laser beam welding is still rather low for mass implementation of this technology in the aerospace engineering.
Mechanical Characteristics In Figure 5 shows engineering stress-strain curves of the 1424 Al alloy; welded joint; welded joint after quenching; welded joint after quenching, plastic deformation and artificial aging Fig. 5.
The engineering stress-strain curves of the 1424Al alloy; welded joint; welded joint after quenching; welded joint after quenching, plastic deformation and artificial aging.
Soutis, Recent developments in advanced aircraft aluminium alloys, Mater.