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Online since: April 2023
Authors: Koshiro Mizobe, Takahiro Matsueda, Katsuyuki Kida, Yasuharu Hobo, Ryota Hayashi
Methods
Specimen
A Si3N4 ball specimen of 4.762 mm (3/16 inch) diameter (Toshiba Materials Co., Ltd.
Vaughan, Cyclic fatigue of ceramics, Journal of materials science 26 (1991) 3275-3286
Suresh, Crack propagation in ceramics under cyclic loads, Journal of materials science 22 (1987) 1173-1192
Nguyen, Fracture toughness measurements in ceramics: pre-cracking in cyclic compression, Journal of materials science 22, 1271-1276 (1987)
Kida, Observation of crack growth behavior of various cracks in 4.762mm diameter silicon nitride balls under cyclic compressive load, Materials science forum 971 (2019) 101-105
Vaughan, Cyclic fatigue of ceramics, Journal of materials science 26 (1991) 3275-3286
Suresh, Crack propagation in ceramics under cyclic loads, Journal of materials science 22 (1987) 1173-1192
Nguyen, Fracture toughness measurements in ceramics: pre-cracking in cyclic compression, Journal of materials science 22, 1271-1276 (1987)
Kida, Observation of crack growth behavior of various cracks in 4.762mm diameter silicon nitride balls under cyclic compressive load, Materials science forum 971 (2019) 101-105
Online since: September 2021
Authors: Ilnur Karimullin, Emil Voznesensky, Vladislav Sisoev, Gennady Kulevtsov, Rimma Shagivalieva, Yuliya Timoshina
But these fibrous materials, along with high strength characteristics, are characterized by surface inertness and low adhesion to matrix polymers, which limits their use for reinforcing composite materials.
Abldullin, Modification of synthetic fibrous materials and products by nonequilibrium low-temperature plasma.
Kashapov, High-frequency plasma-jet processing of materials at reduced pressures.
Zheltukhin, Modification of synthetic fibrous materials and products by nonequilibrium low-temperature plasma.
Karnoukhov et al, Influence of plasma modification on free surface energy of synthetic fibrous materials, Journal of Physics: Conference Series. 1588 (2020) 012052
Abldullin, Modification of synthetic fibrous materials and products by nonequilibrium low-temperature plasma.
Kashapov, High-frequency plasma-jet processing of materials at reduced pressures.
Zheltukhin, Modification of synthetic fibrous materials and products by nonequilibrium low-temperature plasma.
Karnoukhov et al, Influence of plasma modification on free surface energy of synthetic fibrous materials, Journal of Physics: Conference Series. 1588 (2020) 012052
Online since: July 2011
Authors: Jin Hong Zhu, Hong Xin Shi, Le Yi Dai
Application of Computer and Network Technology in Welding Power Source Design
Leyi Daia, Jinhong Zhub, Hongxin Shic
School of Materials Science and Engineering, Henan University of Science and Technology Luoyang 471003, China
adaileyiabcdef@163.com, bzjh163cn@163.com, chyhx66@163.com
Keywords: Welding power source, Database, Website, Remote management
Abstract.
Generally, welding database research focused on materials management, welding procedure qualification and welder qualification exam and so on.
Tsinghua University developed a steel pressure vessel welding and management system for Beijing Yanshan Petrochemical Construction and Installation Company, which can calculate and aggregate consumption of welding materials, and generate process planning.
References [1] Fujita M, Kinugawa J, Okada A, et al.: Data Science Journal Vol. 2(2003), p. 136-145 [2] Lucas W: Welding Journal Vol. 66, No. 4(1987), p. 19-30 [3] Rosali Brosilow: Welding Design & Fabrication Vol. 56, No. 3(1989), p. 81-89 [4] Bingquan Chen, Yikui Zhao: Journal of Hubei Polytechnic University Vol. 17, No. 2(2002), p. 172-174 In Chinese [5] Yan Wei, Yanhong Wei: Welding & Joining Vol. 11(2006), p. 17-21 In Chinese [6] Jinzhou zhang: Information management system of boiler quality grading.
Yunnan: Kunming University of Science and Technology, 2004: 7-10 In Chinese [7] Xiaoshan Liu, Wenzhen Song, Lihua Zhou, et al.: Installation Vol. 135, No. 4(2004), p. 29-32 In Chinese [8] Xiangkui Zhang, Yanhong Wei, Ning Liang, et al.: Aerospace Materials & Technology, Vol. 6(2008), p. 21-25 In Chinese [9] Huizhen Zhang: China Science and Technology Information Vol. 11(2006), p. 201-203 In Chinese [10] Jingtao Sun, Yujun Xu, Xiaohui Lin, et al.: Welding & Joining Vol. 2(2010), p. 47-50 In Chinese [11] Yongge Sun: Journal of Hunan Industry Polytechnic Vol. 7, No. 4(2007), p. 5-7 In Chinese [12] Jinghua Peng, Shengzhen Cai, Yunping Wu, et al.: Modern Electronics Technique Vol. 4 (2004), p. 47-49 In Chinese [13] Kehong Wang, Yan Yang, Bo Wang: Welding Journal Vol. 27, No. 10(2006), p. 11-14 In Chinese
Generally, welding database research focused on materials management, welding procedure qualification and welder qualification exam and so on.
Tsinghua University developed a steel pressure vessel welding and management system for Beijing Yanshan Petrochemical Construction and Installation Company, which can calculate and aggregate consumption of welding materials, and generate process planning.
References [1] Fujita M, Kinugawa J, Okada A, et al.: Data Science Journal Vol. 2(2003), p. 136-145 [2] Lucas W: Welding Journal Vol. 66, No. 4(1987), p. 19-30 [3] Rosali Brosilow: Welding Design & Fabrication Vol. 56, No. 3(1989), p. 81-89 [4] Bingquan Chen, Yikui Zhao: Journal of Hubei Polytechnic University Vol. 17, No. 2(2002), p. 172-174 In Chinese [5] Yan Wei, Yanhong Wei: Welding & Joining Vol. 11(2006), p. 17-21 In Chinese [6] Jinzhou zhang: Information management system of boiler quality grading.
Yunnan: Kunming University of Science and Technology, 2004: 7-10 In Chinese [7] Xiaoshan Liu, Wenzhen Song, Lihua Zhou, et al.: Installation Vol. 135, No. 4(2004), p. 29-32 In Chinese [8] Xiangkui Zhang, Yanhong Wei, Ning Liang, et al.: Aerospace Materials & Technology, Vol. 6(2008), p. 21-25 In Chinese [9] Huizhen Zhang: China Science and Technology Information Vol. 11(2006), p. 201-203 In Chinese [10] Jingtao Sun, Yujun Xu, Xiaohui Lin, et al.: Welding & Joining Vol. 2(2010), p. 47-50 In Chinese [11] Yongge Sun: Journal of Hunan Industry Polytechnic Vol. 7, No. 4(2007), p. 5-7 In Chinese [12] Jinghua Peng, Shengzhen Cai, Yunping Wu, et al.: Modern Electronics Technique Vol. 4 (2004), p. 47-49 In Chinese [13] Kehong Wang, Yan Yang, Bo Wang: Welding Journal Vol. 27, No. 10(2006), p. 11-14 In Chinese
Online since: September 2014
Authors: Daria Vladimirovna Petrosova, Nikolay Vatin, Olga Sergeevna Gamayunova
Types of dangers, which are the main causes of injuries in construction:
§ collapse of structures - the walls of buildings, farms, scaffolding, wall trenches and pits;
§ fall from a height - materials, structures, faucets;
§ defeated people by electricity;
§ fires;
§ disease - from overheating and frostbite, eye damage, poisoning food and breathing, etc.
Vatin: International relations in construction education and science (2012) Construction of Unique Buildings and Structures, 2, pp. 1-5.
Kellyc: Exploring the perceived influence of safety management practices on project performance in the construction industry (2012) Safety Science.
: A literature review extending from 1980 until the present (2012) Safety Science.
Herrerab: Building Safety indicators: Part 1 – Theoretical foundation (2011) Safety Science.
Vatin: International relations in construction education and science (2012) Construction of Unique Buildings and Structures, 2, pp. 1-5.
Kellyc: Exploring the perceived influence of safety management practices on project performance in the construction industry (2012) Safety Science.
: A literature review extending from 1980 until the present (2012) Safety Science.
Herrerab: Building Safety indicators: Part 1 – Theoretical foundation (2011) Safety Science.
Online since: October 2015
Authors: Khairul Imran Sainan, Firdaus Mohamad, Naqiuddin Arsyad, Mohd Ezzuan Salleh
Graphite is used as theplate material.
The gasketmaterialis made from two materials which are Polyimide and Silicon.
Commonly the BPPs material is made from graphite.
flow channel," Journal of Mechanical Science and Technology, vol. 26, no. 5, pp. 1315-1320, May 2012. [6] Haijiang Wang,Jiujun Zhang, David P.
Wilkinson Xiao Zi Yuan, "Bipolar Plates for PEM Fuel Cells - From Materials to Processing," Journal of New Materials for Electrochemical Systems, pp. 257-267, 2005. [7] E.B.
The gasketmaterialis made from two materials which are Polyimide and Silicon.
Commonly the BPPs material is made from graphite.
flow channel," Journal of Mechanical Science and Technology, vol. 26, no. 5, pp. 1315-1320, May 2012. [6] Haijiang Wang,Jiujun Zhang, David P.
Wilkinson Xiao Zi Yuan, "Bipolar Plates for PEM Fuel Cells - From Materials to Processing," Journal of New Materials for Electrochemical Systems, pp. 257-267, 2005. [7] E.B.
Online since: July 2011
Authors: Ding Guo Zhou, Rui Yang, Sun Guo Wang, Hai Yan Mao
Plasma surface modification is regarded as one of the cost effective surface treatment techniques for many materials including natural fibers.
The advantage of plasma modification is that surface properties and biocompatibility can be enhanced while the bulk attributes of the materials remain unchanged [6].
Experiments Materials and Methods.
Materials Science and Engineering (2002) R 36 143–206 [7] Matsui H, Setoyama K, Kurosu H: Surface modification of wood in fluorine-containing gas plasma.
Evans: Etching of wood surfaces by glow discharge plasma, Wood Science Technology (2010) DOI 10.1007/s00226-010-0317-7 [9] Boenig HV: Plasma science and technology.
The advantage of plasma modification is that surface properties and biocompatibility can be enhanced while the bulk attributes of the materials remain unchanged [6].
Experiments Materials and Methods.
Materials Science and Engineering (2002) R 36 143–206 [7] Matsui H, Setoyama K, Kurosu H: Surface modification of wood in fluorine-containing gas plasma.
Evans: Etching of wood surfaces by glow discharge plasma, Wood Science Technology (2010) DOI 10.1007/s00226-010-0317-7 [9] Boenig HV: Plasma science and technology.
Online since: March 2019
Authors: Ya Wei Peng, Jian Ming Gong, Zhe Liu, Chao Ming Chen
Journal of Materials Science & Technology 15.3(1999) 193-197
Materials Science & Engineering A 375-377.1(2004) 38-45
Journal of Materials Processing Technology, 152(1) (2004) 56-61
Materials Science & Engineering A, 352(1) (2003) 144-149
Journal of Materials Processing Tech, 211(12) (2011), 2106-2113
Materials Science & Engineering A 375-377.1(2004) 38-45
Journal of Materials Processing Technology, 152(1) (2004) 56-61
Materials Science & Engineering A, 352(1) (2003) 144-149
Journal of Materials Processing Tech, 211(12) (2011), 2106-2113
Online since: December 2012
Authors: Qiang Su, Jun Shen, Xing Sheng Kang, Yi Li
The performance of materials used in biological technology is the key to the efficiency of arsenic removal.
Pteris vittata is a fern, in recent research results showed that Pteris vittata can be used as removal of arsenic materials.
Water hyacinth is a attributable to the aquatic floating plants of barracuda grass class.Haris et al as a natural biological removal of arsenic materials research, the results show that the dried roots of the water hyacinth able to reduce to 10μg / L.
Biological origin materials used in the removal of arsenic include some biological intracellular extracts (such as chitin, chitosan) and the living tissue (such as human hair).
Costa: submitted to Journal of Sep.Sci.
Pteris vittata is a fern, in recent research results showed that Pteris vittata can be used as removal of arsenic materials.
Water hyacinth is a attributable to the aquatic floating plants of barracuda grass class.Haris et al as a natural biological removal of arsenic materials research, the results show that the dried roots of the water hyacinth able to reduce to 10μg / L.
Biological origin materials used in the removal of arsenic include some biological intracellular extracts (such as chitin, chitosan) and the living tissue (such as human hair).
Costa: submitted to Journal of Sep.Sci.
Online since: January 2005
Authors: Jin Cheng, Yue Zhang
In recent years, much work has been done on microwave absorbing materials, and
anisotropy magnetic materials are expected to have excellent microwave absorbing properties.
Anisotropy magnetic materials are expected to be good at absorbing microwave.
In the present work, as the base of magnetic materials ferrite, iron oxide films are prepared by atmospheric MOCVD.
The array materials are uniform.
The array materials have very high surface area.Fig.2 shows SEM images of the iron oxide whisker film formed on crystal silicon (111).
Anisotropy magnetic materials are expected to be good at absorbing microwave.
In the present work, as the base of magnetic materials ferrite, iron oxide films are prepared by atmospheric MOCVD.
The array materials are uniform.
The array materials have very high surface area.Fig.2 shows SEM images of the iron oxide whisker film formed on crystal silicon (111).
Online since: January 2011
Authors: Wei Ping Shen, Peng Wan Chen, Qiang Zhou, Xiang Gao
Mehdipoor: Journal of materials processing technology 209 (2009), pp4201-4206
[3] Y.
Itoh: Materials science forum Vol.566 (2008), pp339-344 [4] S.
Itoh: Materials science forum Vol.566 (2008), pp361-372 [5] S.
Hall: Journal of materials processing technology 94 (1999), pp247-260 [10] L.J.
Ujimoto: Journal of materials processing technology 85 (1999), pp153-157 [12] K.
Itoh: Materials science forum Vol.566 (2008), pp339-344 [4] S.
Itoh: Materials science forum Vol.566 (2008), pp361-372 [5] S.
Hall: Journal of materials processing technology 94 (1999), pp247-260 [10] L.J.
Ujimoto: Journal of materials processing technology 85 (1999), pp153-157 [12] K.