Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2020
Authors: Vivek V. Patel, Gopinath Thirunavukarasu, Sukumar Kundu, Alankar Alankar
Patel3,4,c
and Alankar Alankar1,d
1Department of Mechanical Engineering, Indian Institute of Technology Bombay, Powai, Mumbai, 400076, Maharashtra, INDIA
2Department of Metallurgy and Materials Engineering, Indian Institute of Engineering Science and Technology, Shibpur, Howrah, 711103, West Bengal, INDIA
3Department of Mechanical Engineering, School of Technology, Pandit Deendayal Petroleum University, Gandhinagar, 382007, Gujarat, INDIA
4The Shaanxi Key Laboratory of Friction Welding Technologies, School of Materials Science and Engineering, Northwestern Polytechnical University, Xi’an 710072, Shaanxi, P.R.
This drive is reported by several engineering sectors such as: tooling, clothing, marine, automobile, aeronautics, implants, and power generation [1].
Koçak, Progress in joining of advanced materials, Int.
Forum 380 (2017) 12–28
This drive is reported by several engineering sectors such as: tooling, clothing, marine, automobile, aeronautics, implants, and power generation [1].
Koçak, Progress in joining of advanced materials, Int.
Forum 380 (2017) 12–28
Online since: January 2022
Authors: Ganesh Awchat, Gopal Dhanjode
Ganesh Awchat1,a*, Gopal Dhanjode2,b
1Department of Civil Engineering, Shri Guru Gobind Singhji Institute of Engineering & Technology, Nanded, Maharashtra, India
2Department of Civil Engineering, Nagpur Institute of Technology, Nagpur, Maharashtra, India
a*gdawchat@sggs.ac.in, bgopaldhanjode@gmail.com
Keywords: Recycled Concrete, Steel fibers, Styrene Butadiene Rubber Latex, Indirect tensile strength, Flexural strength, Chloride Attack, Sulfate Attack.
Potable tap water tested in the institute's Environmental Engineering laboratory was used for casting specimens and confirms to BIS:456-2000 [34].
Desai, Use of industrial by-products and recycled materials in concrete structures – an engineer’s perspective, The Ind.
Practices in the Twenty-First Century, Institution of Engineers (India), Roorkee, (1996) 964-973
Ge, Effect of styrene butadiene rubber latex on mortar and concrete properties, Advanced Engineering Forum. 5 (2012) 283-288. https://doi.org/10.4028/www.scientific.net/ aef.5.283 [17] A.
Potable tap water tested in the institute's Environmental Engineering laboratory was used for casting specimens and confirms to BIS:456-2000 [34].
Desai, Use of industrial by-products and recycled materials in concrete structures – an engineer’s perspective, The Ind.
Practices in the Twenty-First Century, Institution of Engineers (India), Roorkee, (1996) 964-973
Ge, Effect of styrene butadiene rubber latex on mortar and concrete properties, Advanced Engineering Forum. 5 (2012) 283-288. https://doi.org/10.4028/www.scientific.net/ aef.5.283 [17] A.
Online since: January 2018
Authors: Wen Feng Li, Lan Bo Zheng, Charles Atombo, Aaron Agbenyegah Agbo
Reliability Engineering & System Safety, 2016
Engineering Failure Analysis, 2012. 25: p. 182-192
Energy Engineering, 2010. 107(5): p. 64-75
[41] Misra, K.B., Reliability engineering: A perspective, in Handbook of Performability Engineering. 2008, Springer. p. 253-289
Reliability Engineering & System Safety, 2016
Engineering Failure Analysis, 2012. 25: p. 182-192
Energy Engineering, 2010. 107(5): p. 64-75
[41] Misra, K.B., Reliability engineering: A perspective, in Handbook of Performability Engineering. 2008, Springer. p. 253-289
Reliability Engineering & System Safety, 2016
Online since: June 2010
Authors: Ulrike Deisinger
Hing, Bone repair in the twenty-first century: biology, chemistry or engineering?
Chua, The design of scaffolds for use in tissue engineering: Part I.
Traditional factors, Tissue Engineering 7/6 (2001) 679-689 [4] M.
Czernuszka, Making Tissue Engineering Scaffolds work.
Ziegler, Different Calcium Phosphate Granules for 3-D Printing of Bone Tissue Engineering Scaffolds, Advanced Engineering Materials - Advanced Biomaterials 11/5 (2009) B41-B46 [77] J.
Chua, The design of scaffolds for use in tissue engineering: Part I.
Traditional factors, Tissue Engineering 7/6 (2001) 679-689 [4] M.
Czernuszka, Making Tissue Engineering Scaffolds work.
Ziegler, Different Calcium Phosphate Granules for 3-D Printing of Bone Tissue Engineering Scaffolds, Advanced Engineering Materials - Advanced Biomaterials 11/5 (2009) B41-B46 [77] J.
Online since: December 2010
Authors: Yuan Qi Li, Zu Yan Shen, Xing You Yao
Load-Carrying Capacity Estimation Methods for Cold-Formed Steel Lipped Channel Member using Effective Width Method
Xingyou YAO1, a, Yuanqi LI1,b, Zuyan SHEN1,c
1 Department of Building Engineering, Tongji University, Shanghai 200092, China
ayaoxingyoujd@163.com, bliyq@tongji.edu.cn, c zyshen@ tongji.edu.cn
Keywords: Cold-formed thin-walled steel, Lipped channel member, Plate buckling coefficient, Effective width method, Local buckling, Distortional buckling
Abstract.
[8] Yuanqi LiLiang Peng,Zuyan Shen, et al..in: proceedings of the third international forum on advances in structural engineering(Shanghai),(2009), p.37~46
[8] Yuanqi LiLiang Peng,Zuyan Shen, et al..in: proceedings of the third international forum on advances in structural engineering(Shanghai),(2009), p.37~46
Online since: December 2023
Authors: Abderrahim Belloufi, Noureddine Cherrad, Soufiane Halimi, Mohammed Mustapha Belhadj, Mounira Chelgham, Fares Mouissi, Youcef Messaoudi, Soufiane Touati, Khadra Aliouat
Omara, A detailed review of the factors impacting pyramid type solar still performance, Alexandria Engineering Journal, 66 (2023) 123-154
Kabeel, A new trapezoidal pyramid solar still design with multi thermal enhancers, Applied Thermal Engineering, 213 (2022) 118699
Yang, Augmentation of a pyramid solar still performance using evacuated tubes and nanofluid: Experimental approach, Applied Thermal Engineering, 160 (2019) 113997
Alhefeiti, Design procedures for a passive pyramid solar still with an automatic feed water system, Alexandria Engineering Journal, 61 (2022) 6419-6431
Elsheikh, A coupled artificial neural network with artificial rabbits optimizer for predicting water productivity of different designs of solar stills, Advances in Engineering Software, 175 (2023) 103315
Kabeel, A new trapezoidal pyramid solar still design with multi thermal enhancers, Applied Thermal Engineering, 213 (2022) 118699
Yang, Augmentation of a pyramid solar still performance using evacuated tubes and nanofluid: Experimental approach, Applied Thermal Engineering, 160 (2019) 113997
Alhefeiti, Design procedures for a passive pyramid solar still with an automatic feed water system, Alexandria Engineering Journal, 61 (2022) 6419-6431
Elsheikh, A coupled artificial neural network with artificial rabbits optimizer for predicting water productivity of different designs of solar stills, Advances in Engineering Software, 175 (2023) 103315
Online since: February 2016
Authors: Franco Cotana, Anna Laura Pisello, Federica Rosso, Veronica Lucia Castaldo, Cristina Piselli, Marco Ferrero
Dept. of Engineering. via G.
Ferrero, Outdoor thermal and visual perception of natural cool materials for roof and urban paving, Procedia Engineering (2015), International Conference on Sustainable Design, Engineering and Construction
Takebayashi, Colored Cool Materials, Advances in the Development of Cool Materials for the Built Environment (2013), p. 72-82
Hooley: Multilayer absorbers of silica aerogel, In Proceedings of Forum Acusticum (2002, September) [66] M.
Haberl, in: Advances in Ecological Economics, edited by Edward Elgar, Cheltenham, UK (2007) [79] U.
Ferrero, Outdoor thermal and visual perception of natural cool materials for roof and urban paving, Procedia Engineering (2015), International Conference on Sustainable Design, Engineering and Construction
Takebayashi, Colored Cool Materials, Advances in the Development of Cool Materials for the Built Environment (2013), p. 72-82
Hooley: Multilayer absorbers of silica aerogel, In Proceedings of Forum Acusticum (2002, September) [66] M.
Haberl, in: Advances in Ecological Economics, edited by Edward Elgar, Cheltenham, UK (2007) [79] U.
Online since: July 2011
Authors: Mark Easton, John F. Grandfield, C. J. Davidson, M.A. Rhamdhani, M. A. Dewan, Jason B. Mitchell, G. A. Brooks
Grandfield4
CAST Cooperative Research Centre (CAST CRC)
1Swinburne University of Technology, Melbourne, VIC 3122, Australia
2CSIRO Process Science and Engineering, QCAT, QLD 4069, Australia
3Monash University, Clayton, VIC 3800, Australia
4Grandfield Technology Pty.
Materials Science Forum, 2009. 630: p. 129-36 [7] Dube, G., Removal of Impurities from Molten Aluminium, A.I.
Die Casting Engineer, 1985. 29: p.16-24 [28] Lewis, D.K., Can We Control Hard Spot Problems.
Die Casting Engineer, 1987. 31(2): p. 34 [29] Revel, G., Aluminium De Haute Purete Obtenu Par Zone Fondue.
Light Metals 2002, 2002: p. 931-5 [53] Tian, C., et al., Inclusion Removal From Aluminum Melts Through Filtration, in Advances in Production & Fabrication of Light Metals & Metal Matrix Composites. 1992: Edmonton, Alberta; Canada. p. 153-61 [54] Kolin, A., An Electromagnetokinetic Phenomenon Involving Migration of Neutral Particles.
Materials Science Forum, 2009. 630: p. 129-36 [7] Dube, G., Removal of Impurities from Molten Aluminium, A.I.
Die Casting Engineer, 1985. 29: p.16-24 [28] Lewis, D.K., Can We Control Hard Spot Problems.
Die Casting Engineer, 1987. 31(2): p. 34 [29] Revel, G., Aluminium De Haute Purete Obtenu Par Zone Fondue.
Light Metals 2002, 2002: p. 931-5 [53] Tian, C., et al., Inclusion Removal From Aluminum Melts Through Filtration, in Advances in Production & Fabrication of Light Metals & Metal Matrix Composites. 1992: Edmonton, Alberta; Canada. p. 153-61 [54] Kolin, A., An Electromagnetokinetic Phenomenon Involving Migration of Neutral Particles.
Online since: September 2017
Authors: Krzysztof Jan Kurzydlowski, Tomasz Wejrzanowski
Introduction
Structure of engineering materials is complex as illustrated in Fig. 1.
Schematic illustration of the complexity of the structure of engineering materials.
In most engineering materials the disturbance of a perfect monocrystalline crystal lattice is done on purpose.
Forum 94 (1992) 865-870
Forum 94-96 (1992) 319-324
Schematic illustration of the complexity of the structure of engineering materials.
In most engineering materials the disturbance of a perfect monocrystalline crystal lattice is done on purpose.
Forum 94 (1992) 865-870
Forum 94-96 (1992) 319-324
Online since: December 2022
Authors: Liang Fang, Hong Neng Cai, Zhang He, Muhammad Raies Abdullah
Strategies Regarding High-Temperature Strength and Toughness Applications for SUS304 Alloy
Muhammad Raies Abdullah1,a, Fang Liang1,2,b*, Cai Hongneng1,c, He Zhang1,d
1State Key Laboratory for Mechanical Behavior of Materials, Xi’an Jiaotong University, Xi’an 710049, China
2School of Mechanical & Electrical Engineering, Xiamen University Tan Kah Kee College, Zhangzhou 363105, China
E-mail address: aRaies.xjtu@outlook.com, b*fangl@xjtu.edu.cn, chntsai@mail.xjtu.edu.cn, d15737935380@163.com
Keywords: Computational thermodynamics, Thermo-Calc, CALPHAD, toughness, interfacial energy, coarsening rate, phase transformations.
Generally, engineering the mechanical stability of austenite and purifying retained austenite increase impact toughness over its crack arresting ability [15].
Xiong, CALPHAD-Based Integrated Computational Materials Engineering Research for Materials Genomic Design, Jom. 67 (2015) 1864–1865
Forum. 537–538 (2007) 497–504
Jung, CALPHAD-based alloy design for advanced automotive steels - Part I: Development of bearing steels with enhanced strength and optimized microstructure, Calphad Comput.
Generally, engineering the mechanical stability of austenite and purifying retained austenite increase impact toughness over its crack arresting ability [15].
Xiong, CALPHAD-Based Integrated Computational Materials Engineering Research for Materials Genomic Design, Jom. 67 (2015) 1864–1865
Forum. 537–538 (2007) 497–504
Jung, CALPHAD-based alloy design for advanced automotive steels - Part I: Development of bearing steels with enhanced strength and optimized microstructure, Calphad Comput.