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Leyens, Titanium alloys for aerospace applications, Advanced Engineering Materials 5(6) (2003) 419-427
Zhu, Research and Development of Advanced New Type Titanium Alloys for Aeronautical Applications [J], Aeronautical Science and Technology 1 (2012) 5-9
Erdogan, A critical analysis of crack propagation laws, Journal of basic engineering 85(4) (1963) 528-533
Soboyejo, An investigation of the effects of temperature on fatigue crack growth in a cast lamellar Ti–45Al–2Mn–2Nb+ 0.8 vol.% TiB2 alloy, Materials Science and Engineering: A 319 (2001) 618-624
Mizuhara, Effect of microstructure on fatigue crack growth in TiAl intermetallics at elevated temperature, Materials Science and Engineering: A 323(1-2) (2002) 62-69

Transition to Digital Joining Systems Transitioning from traditional welding processes to digital welding processes involves adopting advanced technologies and practices to enhance precision, control, and efficiency in manufacturing operations.
Having the main goals, research to identify the digital welding technologies that align with the defined goals, such as robotic welding systems, automated welding cells, and advanced welding power sources, is necessary.
Retrofitting of Welding Equipment to Digital An important step in implementing the transition to green welding is upgrading and integrating advanced technologies into the existing welding equipment to enhance control, precision, and efficiency.
To improve energy efficiency, it is necessary to consider using energy-efficient equipment, such as advanced power sources and inverter-based welding machines.
Advanced gas metal arc welding processes.

., (2012), Aspects about using multi-criteria decision models for making decision regarding environmental quality and protection, International Conference Advances in Engineering & Management, 143-146
Demian Gabriela, Demian Mihai, Bogdan Lizia, Studies regarding photovoltaic solar energy potential on Pristol area, Mehedinti County-  Advanced Engineering Forum. 2015, Vol. 13, p341-347.

Hong 1,e 1 Advanced Materials Processing and Analysis Center, University of Central Florida, Orlando, FL 32816-2455, USA 2 Division of Materials Science and Engineering, Korea University, Seoul, 136-701, Korea a byeonjw@hanmail.net, b chs2865@hanmail.net, brazingni@hanmail.net, dsookkwun@korea.ac.kr, e alalloy@hanmail.net Keywords: ultrasonic Rayleigh wave, nondestructive evaluation, Co-based superalloy, thermal degradation Abstract.
(R01-2002-000-00018-0) from the Basic Research Program of the Korea Science & Engineering Foundation.
Forum Vol. 449-452 (2004), p. 569 [3] J.W.
Byeon: Proc. 15th WCNDT, Rome, 2000 [8] General Electric Company: Advance Technology Gas Turbine Metallographic Handbook for FSX414 Nozzle Alloy, (1984)

Research on Abrasive Flow Machining for the outer rotor of cycloidal pump Wenbing Xie 1, a, Kehua Zhang 2, b, Siwei Zhang 1, c and Biao Xu 1, d 1 XingZhi College of Zhejiang Normal University, JinHua, 321004, China 2 Precision Engineering Institute of Zhejiang Normal University, JinHua, 321004, China a453756941@qq.com, bmature@126.com, c451384561@qq.com, d591666681@qq.com Keywords: abrasive flow machining; outer rotor; shear force; surface roughness Abstract.
HAN: Mechanical Engineer.
Forum Vol. 11 (2009), p. 51-52 [4] J.
Kumar: The International Journal of Advanced Manufacturing Technology. 38 (2008), p. 1157-1164 [8] A.C.
He: Journal of Drainage and Irrigation Machinery Engineering. 29 (2011), p. 255-259

Hardening of Rail Vehicle Axles Stanislav Your Paper's Title Starts Here: Please Center use Helvetica (Arial) 14 FULL First AuthoNěmečekr1,a, a*, Karel Trojan2,b, Jiří Čapek2,c, Nikolaj GanevFULL Second Author2,d,b, Ivo Černý2,e and Jan KecFULL Last Author3,f,c 1Full University of West Bohemia, Univerzitní 22, 30100 Pilsenaddress of first author, including countryCzech Republic 2Full Department of Solid State Engineering, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Trojanova 13, 120 00 Pragueaddress of second author, Czech Republicincluding country 3List SVÚM a.s., Tovární 2053, 250 88 Čelákovice, all distinct Czech Republicaddresses in the same way aesnemecek@kmm.zcu.cz, bkarel.trojan@fjfi.cvut.cz, cjiri.capek@fjfi.cvut.cz, dnikolaj.ganev@fjfi.cvut.cz, eivo.cerny@fjfi.cvut.cz, fKec@svum.cz mail, bemail, cemail* please mark the corresponding author with an asterisk Keywords: List the keywords covered in your paper.
The author should indicate on the checklist if he wishes to have them printed in full color and make the necessary payments in advance.
Intensive Quenching Systems - Engineering and Design, ASTM International 2010, ISBN 9781628702347.
Materials Science Forum Vol 782 (2014), pp. 306-310
Clem: submitted to Journal of Materials Research (2003) Advanced Materials Research Vol. 996 (2014), pp. 538-543

Advances in the field of ICT, including Email, Internet bulletin boards, Internet-based courseware delivery strategies, and video conferencing have together changed the whole process of industry.
There are more than 200 advanced processing units including numerical control lathe, driller, mill and borer in the company.
The product of the company includes clevis pin with head and shaft liner for engineering machinery, agricultural machinery, and automobile drive shaft (half axle).
The annual production of the company reached 80,000 sets of clevis pin with head and shaft liner for engineering machinery.
For finding professional information, communicating with researchers, quest for knowledge using learner forums, large ability gap (2.84) is obtained. 5.

Effect of AlN on microstructure and mechanical properties of Mg-Al-Zn alloy Peng Liu1,a, Haoran Geng1,b, Zhenqing Wang1,c, Jianrong Zhu1,d, Fusen Pan1,e, Xiaobin Dong1,f 1School of Material Science and Engineering of University of Jinan, Jinan, Shandong Province, 250022, China aliu8_007@163.com, bmse_genghr@ujn.edu.cn, cmse_wangzhq@ujn.edu.cn, d429860941@qq.com,elpmhxy001@163.com,flpmhxy005@163.com Keywords: Al-Mg-Zn alloy; AlN; β-Mg17Al12; Tensile strength Abstract.
Introduction Magnesium alloys have been paid attention for advanced engineering materials because of its higher specific strength and specific stiffness than Fe and Al alloys.
Phase analyses were performed with a X-ray diffractometer(D8 Advance).
Forum 488–489 (2005) 139–143

Studies on the Influence of Sintering Parameters on the Hardness and Impact Energy of some Sintered Steels Alloyed with Copper Powders NICOLICESCU Claudiu1a *, ŞTEFAN Iulian1b and NICOARĂ Victor1c 1University of Craiova, Faculty of Mechanics, Department of Engineering and Management of the Technological Systems, Drobeta Turnu Severin, Romania anicolicescu_claudiu@yahoo.com, bstefan_iuly@yahoo.com, cvictorczh@gmail.com Keywords: powder metallurgy, carburizing, sintered steels Abstract.
Wang, Effect of alloying elements and processing factors on the microstructure and hardness of sintered and induction-hardened Fe–C–Cu alloys, Materials Science and Engineering A 402 (2005) 92–97
Savu, The improving of the process of the iron, the cast iron and the copper powder mixing, Materials Science Forum 672 (2011) 76-79
Actis-Grande, The effect of "GASCARBUSINT" on tensile properties of sintered steels, Journal of Optoelectronics and Advanced Materials 15 (2013) 803-806
Hanejko, Effect of Copper Alloy Addition Method on the Dimensional Response of Sintered Fe-Cu-C Steels, Advances in Powder Metallurgy&Particulate Materials 3 (2010) 234-239.

Advanced TiC/a-C:H nanocomposite coatings have been produced via reactive deposition in a closed-field unbalanced magnetron sputtering system.
Introduction The surface of a component is usually the most important engineering factor.
Since Leonardo da Vinci (1452-1519) who studied friction surface and coatings technologies have become an important branch of modern surface sciences and engineering.
In this paper, we report on the self-lubrication and wear behavior of advanced TiC/a-C:H nanocomposite coatings in which ultra-low friction is tailored with superior wear resistance, being two properties often difficult to achieve simultaneously.
Forum, Vol. 475-479 (2005), p. 3655 [3] C.