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Online since: May 2012
Authors: Jiang Feng Wu, Xiu Ling Lv
The Application of Earned Value in Project Management
Xiuling Lv 1, a, Jiangfeng Wu 2 ,a
1 College of Civil Engineering And Architecture, Hebei United University .
063009 Tangshan, China
2 College of Civil Engineering And Architecture, Hebei United University .
063009 Tangshan, China
awujiangfeng2008@163.com
Key words: earned value, project management, BCWS, ACWP, BCWP
Abstract.
It is a systematic control method to supervise engineering projects effectively. [1] The application of Earned Value in the overall analysis and control of the cost and schedule is related to three references, namely, BCWS, ACWP and BCWP.
The enormity of data is such that it is necessary to make use of advanced management software, in order to raise the efficiency of project management, and to report in time and effect project cost and schedule in the most favorable running condition.
[3] Pengcheng Zhao: Enterprises of High and New Technologies in China, Forum Vol. 24(2011) , p. 123-125 [4] Lixian Miu: The New West.
Forum Vol. 02(2009) , p. 161-162
It is a systematic control method to supervise engineering projects effectively. [1] The application of Earned Value in the overall analysis and control of the cost and schedule is related to three references, namely, BCWS, ACWP and BCWP.
The enormity of data is such that it is necessary to make use of advanced management software, in order to raise the efficiency of project management, and to report in time and effect project cost and schedule in the most favorable running condition.
[3] Pengcheng Zhao: Enterprises of High and New Technologies in China, Forum Vol. 24(2011) , p. 123-125 [4] Lixian Miu: The New West.
Forum Vol. 02(2009) , p. 161-162
Online since: December 2004
Authors: Jiu Hua Xu, Wen Feng Ding, J.B. Lu, Hong Jun Xu, Bing Xiao, Yu Can Fu
Materials Science Forum Vols. *** (2004) pp.11-15
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Brazed CBN Grinding Wheel with Ag-base Filler Alloy
W.F.
Xu 1,a 1 College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, P.
Fig.7 Concentration curves of elements Fig.8 SEM photograph of the fracture morphology C Ti Fe Cu Ag Materials Science Forum Vols. *** 15 References [1] B.H.Chen: 4th Zhengzhou International Superhard Material & Related Products Conference (China Machine Press, 2003) [2] B.
Xiao: Journal of Mechanical Engineering Vol.38 (2002), p. 91 (in Chinese) [3] Y.C.
Xu: Tool Engineering Vol. 32 (1998), p. 4 [4] A.K.Chattopadhyay: Annals of the CIRP Vol. 40 (1991), p. 347 [5] I..
Xu 1,a 1 College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, P.
Fig.7 Concentration curves of elements Fig.8 SEM photograph of the fracture morphology C Ti Fe Cu Ag Materials Science Forum Vols. *** 15 References [1] B.H.Chen: 4th Zhengzhou International Superhard Material & Related Products Conference (China Machine Press, 2003) [2] B.
Xiao: Journal of Mechanical Engineering Vol.38 (2002), p. 91 (in Chinese) [3] Y.C.
Xu: Tool Engineering Vol. 32 (1998), p. 4 [4] A.K.Chattopadhyay: Annals of the CIRP Vol. 40 (1991), p. 347 [5] I..
Online since: March 2008
Vinod Agarwala
NAVAIR Esteemed Fellow
Associate Director for Materials Science & Engineering
U.S.
Francesco Bellucci Dept. of Materials and Production Engineering University of Naples "Federico II" Naples, Italy Conference Coordinator and Point of Contact Juliet Ippolito c/o Dept. of Aerospace Engineering University of Naples "Federico II" Naples, Italy Technical Coordinator Mario Montuori Dept. of Materials and Production Engineering University of Naples "Federico II" Naples, Italy Local Committee Vincenza Marzocchi Gianni Castagnola Bitondo Ciro ii Background and Objectives Building on the success of our First World Congress on Corrosion in the Military held in Sorrento Italy back in 2005, this Second World Congress has been organized with the even timelier premise of dealing with the escalating costs of corrosion.
The major cost and readiness concerns in the military are on the operational and maintenance side as most advanced countries have a large inventory of aging ships, air and ground vehicles, submarines, tanks and weapons systems.
These are worldwide problems, issues and concerns for all advanced and even developing countries.
The pooling and leveraging of each others' knowledge, experience, expertise and talents within the global realm encompassed by this world congress proves to be most meaningful, beneficial and productive and does much to consolidate, direct and propel corrosion research to the next technologically-advanced level.
Francesco Bellucci Dept. of Materials and Production Engineering University of Naples "Federico II" Naples, Italy Conference Coordinator and Point of Contact Juliet Ippolito c/o Dept. of Aerospace Engineering University of Naples "Federico II" Naples, Italy Technical Coordinator Mario Montuori Dept. of Materials and Production Engineering University of Naples "Federico II" Naples, Italy Local Committee Vincenza Marzocchi Gianni Castagnola Bitondo Ciro ii Background and Objectives Building on the success of our First World Congress on Corrosion in the Military held in Sorrento Italy back in 2005, this Second World Congress has been organized with the even timelier premise of dealing with the escalating costs of corrosion.
The major cost and readiness concerns in the military are on the operational and maintenance side as most advanced countries have a large inventory of aging ships, air and ground vehicles, submarines, tanks and weapons systems.
These are worldwide problems, issues and concerns for all advanced and even developing countries.
The pooling and leveraging of each others' knowledge, experience, expertise and talents within the global realm encompassed by this world congress proves to be most meaningful, beneficial and productive and does much to consolidate, direct and propel corrosion research to the next technologically-advanced level.
Online since: June 2011
Authors: Zi Yong Hou, She E Hu, Yun Bo Xu, Wei Hua Sun, Guo Dong Wang, Di Wu
Microstructure and Mechanical Properties of ULCB Steels affected by advanced TMCP Technology
Ziyong HOU1, a, *, Yunbo XU1, b, Di WU1, c, Wei-hua SUN 2,
She-e HU 2 and Guodong WANG1, d
1State Key Laboratory of Rolling and Automation, Northeastern University,
Shenyang, Liaoning Province, 110819, CHINA
2Technical Center, Jinan Iron and Steel Group Company, Jinan 117000, CHINA,
a,*houzy525406@163.com, bxuyunbo@mail.neu.edu.cn, cwudi@mail.neu.edu.cn, dwanggd@mail.neu.edu.cn
Keywords: microstructure; ultra-high strength and toughness; advanced TMCP Technology; ULCB Steels.
In this paper, a novel high strength steel plate of HSLA type containing Cu with 910MPa yield strength and 1163MPa tensile strength has been developed using an advanced TMCP (thermo-mechanical control processing) technology.
From the engineering stress-strain curves yield strength (YS), ultimate tensile strength (UTS) and uniform elongation were obtained.
(1) Using an advanced TMCP technology, an ultra-high strength steel with the corresponding tensile strength, yield strength, yield ratio, elongation and impact value at -90 ℃ are 1163 MPa, 910 MPa, 0.78, 16.8.0% and 154 J, respectively
Forum Vol. 638-642(2010), p. 3188
In this paper, a novel high strength steel plate of HSLA type containing Cu with 910MPa yield strength and 1163MPa tensile strength has been developed using an advanced TMCP (thermo-mechanical control processing) technology.
From the engineering stress-strain curves yield strength (YS), ultimate tensile strength (UTS) and uniform elongation were obtained.
(1) Using an advanced TMCP technology, an ultra-high strength steel with the corresponding tensile strength, yield strength, yield ratio, elongation and impact value at -90 ℃ are 1163 MPa, 910 MPa, 0.78, 16.8.0% and 154 J, respectively
Forum Vol. 638-642(2010), p. 3188
Online since: July 2021
Authors: Dmytro Dubinin, Kostyantyn Korytchenko, Dmytro Samoilenko, Vladyslav Kucherskyi, Yevhen Krivoruchko
., Thermal Analysis of Reinforced Concrete Structural Elements, Journal of Structural Fire Engineering. 4 (2013) 227–244
[6] Afanasenko, K. et al., Epoxidized Dinaphthol Application as the Basis for Binder with Advanced Carbonation Level to Reducing its Flammability, Materials Science Forum, 1006, (2020) 41–46
Xu et al., Experimental study on fire resistance of precast concrete columns with efficient reinforcement, Engineering Structures, 204, (2020) 109947
Naser, High temperature properties of fiber reinforced polymers and fire insulation for fire resistance modeling of strengthened concrete structures, Composites Part B: Engineering, 175, (2019) 107104
Korytchenko et al., Advanced detonation gun application for aluminum oxide coating, Multidisciplinary journal «Functional Materials», 27 (1), (2020) 224-229
[6] Afanasenko, K. et al., Epoxidized Dinaphthol Application as the Basis for Binder with Advanced Carbonation Level to Reducing its Flammability, Materials Science Forum, 1006, (2020) 41–46
Xu et al., Experimental study on fire resistance of precast concrete columns with efficient reinforcement, Engineering Structures, 204, (2020) 109947
Naser, High temperature properties of fiber reinforced polymers and fire insulation for fire resistance modeling of strengthened concrete structures, Composites Part B: Engineering, 175, (2019) 107104
Korytchenko et al., Advanced detonation gun application for aluminum oxide coating, Multidisciplinary journal «Functional Materials», 27 (1), (2020) 224-229
Online since: December 2012
Preface
The International Conference on Materials Science and Manufacturing (ICMSM2012) provided
a forum for academic scientists, leading engineers, industry researchers and scholar students to
exchange and share their experiences and research results.
ICMSM2012 aims to cover the recent advancement and trends in the area of new materials, advanced materials, advanced manufacturing technologies, and manufacturing systems and automation to facilitate knowledge sharing and networking interactions on emerging trends and new challenges.
The editor hopes this book will provide readers a broad overview of the latest advances on material science and manufacturing technologies.
ICMSM2012 aims to cover the recent advancement and trends in the area of new materials, advanced materials, advanced manufacturing technologies, and manufacturing systems and automation to facilitate knowledge sharing and networking interactions on emerging trends and new challenges.
The editor hopes this book will provide readers a broad overview of the latest advances on material science and manufacturing technologies.
Online since: March 2023
Authors: Roland Haubner, Susanne Strobl
Scheiblechner, New Steel Combinations Produced by the Damascus Technique, Advanced Engineering Forum, 27 (2018) 14-21
Scheiblechner, Damascus Steel Inlay on a Sword Blade - Production and Characterization, Key Engineering Materials, 742 (2017) 333-340
Haubner, Investigation of the diffusion couple ductile cast iron / iron, Defect and Diffusion Forum, 405 (2020) 54-59
Haubner, Characterisation of steel composites produced by the Damascus technique, Materials Science Forum, 825-826 (2015) 852-859
Haubner, Forging of Copper and Iron Plates by the Damascus Technique, Key Engineering Materials, 809 (2019) 253-258
Scheiblechner, Damascus Steel Inlay on a Sword Blade - Production and Characterization, Key Engineering Materials, 742 (2017) 333-340
Haubner, Investigation of the diffusion couple ductile cast iron / iron, Defect and Diffusion Forum, 405 (2020) 54-59
Haubner, Characterisation of steel composites produced by the Damascus technique, Materials Science Forum, 825-826 (2015) 852-859
Haubner, Forging of Copper and Iron Plates by the Damascus Technique, Key Engineering Materials, 809 (2019) 253-258
Online since: December 2004
Authors: Zhan Qiang Liu, Xing Ai, Yi Wan, J.G. Liu
Materials Science Forum Vols. *** (2004) pp.32-36
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Development of a Cutting Database System with Prediction and Analysis
Functions
Y.
Liu 1,d 1 School of Mechanical Engineering, Shandong University, Jinan 250061, PR China a wanyiterry@sohu.com, bmelius@sdu.edu.cn, caixing@sdu.edu.cn, dljgjn@163.com Keywords: Cutting database, Tool wear, Surface integrity Abstract.
Introduction Over the past few decades, the range of engineering materials increased greatly and meanwhile various cutting tools that are capable of machining these materials appeared.
Materials Science Forum Vols. *** 35 In the user interface, there are many buttons, text, and bitmaps in user interface, which makes it convenient to operate.
Ashley: Mechanical Engineering (1995), p.
Liu 1,d 1 School of Mechanical Engineering, Shandong University, Jinan 250061, PR China a wanyiterry@sohu.com, bmelius@sdu.edu.cn, caixing@sdu.edu.cn, dljgjn@163.com Keywords: Cutting database, Tool wear, Surface integrity Abstract.
Introduction Over the past few decades, the range of engineering materials increased greatly and meanwhile various cutting tools that are capable of machining these materials appeared.
Materials Science Forum Vols. *** 35 In the user interface, there are many buttons, text, and bitmaps in user interface, which makes it convenient to operate.
Ashley: Mechanical Engineering (1995), p.
Online since: May 2005
Authors: Sima Dimitrijev, Valeri V. Afanas'ev, Gerhard Pensl, Andre Stesmans, Florin Ciobanu
Among different models of these SiC/oxide interface states advanced during the past
decade, two have received substantial experimental support.
Forum Vol. 389-393 (2002), p. 3 [3] J.
Stesmans: In: Silicon Carbide: Recent Advances.
Forum Vol. 264-268 (1998), p. 857 [20] K.
Forum Vol. 443-446 (2003), p. 551 [30] H.
Forum Vol. 389-393 (2002), p. 3 [3] J.
Stesmans: In: Silicon Carbide: Recent Advances.
Forum Vol. 264-268 (1998), p. 857 [20] K.
Forum Vol. 443-446 (2003), p. 551 [30] H.
Online since: July 2019
This conference paper proceedings of Materials Science Forum presents selected papers from the participants of ICOAMS2018.
Supriyono Materials Engineering, Computational Solid Mechanics Universitas Muhammadiyah Surakarta (UMS), Indonesia Dr.
Tri Widodo Besar Riyadi Materials Engineering Universitas Muhammadiyah Surakarta (UMS), Indonesia Assoc.
Dafit Feriyanto Advanced materials, manufacturing Universiti Tun Hussein Onn Malaysia (UTHM), Malaysia Assoc.
Mohammad Zulafif Rahim Materials Manufacturing, Advanced Machining, Machine Design Universiti Tun Hussein Onn Malaysia (UTHM), Malaysia Mr.
Supriyono Materials Engineering, Computational Solid Mechanics Universitas Muhammadiyah Surakarta (UMS), Indonesia Dr.
Tri Widodo Besar Riyadi Materials Engineering Universitas Muhammadiyah Surakarta (UMS), Indonesia Assoc.
Dafit Feriyanto Advanced materials, manufacturing Universiti Tun Hussein Onn Malaysia (UTHM), Malaysia Assoc.
Mohammad Zulafif Rahim Materials Manufacturing, Advanced Machining, Machine Design Universiti Tun Hussein Onn Malaysia (UTHM), Malaysia Mr.