Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: October 2023
Authors: Mary Donnabelle L. Balela, Mariz Gebrielle M. Domingo
Balela1,b*
1Sustainable Electronic Materials Group, Department of Mining, Metallurgical, and Materials Engineering, University of the Philippines Diliman, Quezon City, Philippines 1101
ammdomingo7@up.edu.ph, bmlbalela1@up.edu.ph
Keywords: silver nanowire, spectrally selective, spray coating
Abstract.
Balela, Improvements in the electroless deposition of Ag nanowires in hot ethylene glycol for resistive touchscreen device, Materials Research Bulletin. 106 (2018) 446-454
Achinta, Sustainability of glass in construction, in: Sustainability of Construction Materials, 2nd ed., Elsevier Ltd., 2016, 79-104
Ren, Building Decorative Glass, in: Building Decorative Materials, Woodhead Publishing, 2011, 139-168
Rethwisch, Optical Properties, in: Materials Science and Engineering An Introduction, ninth ed., NJ, 2014, 843-844
Balela, Improvements in the electroless deposition of Ag nanowires in hot ethylene glycol for resistive touchscreen device, Materials Research Bulletin. 106 (2018) 446-454
Achinta, Sustainability of glass in construction, in: Sustainability of Construction Materials, 2nd ed., Elsevier Ltd., 2016, 79-104
Ren, Building Decorative Glass, in: Building Decorative Materials, Woodhead Publishing, 2011, 139-168
Rethwisch, Optical Properties, in: Materials Science and Engineering An Introduction, ninth ed., NJ, 2014, 843-844
Online since: April 2023
Authors: Magdalena Streckova, Cyril Bera
Studying TMPs in an acidic environment is unique due of the materials durability and lifetime.
This study opens a new way for designing progressive bifunctional electrocatalyst materials.
Journal of Materials Science 55 (29) (2020) 14081-14104. doi: 10.1007/s10853-020-05010-w
Chemistry of Materials 28 (17) (2016) 6017-6044. doi: 10.1021/acs.chemmater.6b02148
Advanced Functional Materials 26 (23) (2016) 4067-4077. doi: 10.1002/adfm.201505509
This study opens a new way for designing progressive bifunctional electrocatalyst materials.
Journal of Materials Science 55 (29) (2020) 14081-14104. doi: 10.1007/s10853-020-05010-w
Chemistry of Materials 28 (17) (2016) 6017-6044. doi: 10.1021/acs.chemmater.6b02148
Advanced Functional Materials 26 (23) (2016) 4067-4077. doi: 10.1002/adfm.201505509
Online since: May 2011
Authors: Gao Lin, Jun Liu
Numerical results of the model accord well with experimental results at the material and structural levels.
Introduction Experimentally, concrete materials or structures exhibit some phenomena observed, such as decrease in material stiffness due to cracking, stiffness recovery which occurs at crack closure, softening behavior after peak strength, irreversible deformations after unloading, anisotropy induced by growth of microcracks and asymmetric behavior of under tension and compression, etc.[1-3].
Damage and plasticity theories are well established under theoretical frameworks for these macroscopic modeling of concrete like materials.
For evaluating its validity, several examples at the material and structural levels are provided.
Shah: ACI Materials Journal Vol.82 (1985), p. 310 [3] D.M.
Introduction Experimentally, concrete materials or structures exhibit some phenomena observed, such as decrease in material stiffness due to cracking, stiffness recovery which occurs at crack closure, softening behavior after peak strength, irreversible deformations after unloading, anisotropy induced by growth of microcracks and asymmetric behavior of under tension and compression, etc.[1-3].
Damage and plasticity theories are well established under theoretical frameworks for these macroscopic modeling of concrete like materials.
For evaluating its validity, several examples at the material and structural levels are provided.
Shah: ACI Materials Journal Vol.82 (1985), p. 310 [3] D.M.
Online since: September 2024
Authors: Alex Li, Ashraf Ashour, Choucha Said, Salhi Mohamed, Benyahia Amar, Toufik Boubekeur
Construction and Building Materials, 363 (2023): 129864
Construction and Building Materials, 396, 132404 (2023)
Case Studies in Construction Materials, (2024), p. e03101
Materials Today: Proceedings 85 (2023): 24-28
Journal of adhesion science and Technology, 31(24), 2741-2756 (2017)
Construction and Building Materials, 396, 132404 (2023)
Case Studies in Construction Materials, (2024), p. e03101
Materials Today: Proceedings 85 (2023): 24-28
Journal of adhesion science and Technology, 31(24), 2741-2756 (2017)
Online since: April 2014
Authors: Sharifah Bee Abd Hamid, Md Eaqub Ali, Mohammad Ziaul Karim
Another advantage of nanofibrillar cellulose is that their production does not interfere with the food chain, therefore, they can be considered as socially sustainable raw materials.
Application Cellulose is a versatile starting material for several applications.
It is directly linked to the paper industry in which cellulose is used in a conventional way, as a structural material for paper and cardboard products and also in textiles to made cotton, linen, and other plant fibers.
On the other hand, nanobiohybrid (NBH) catalyst consist of supported material and enzyme.
Samir, Journal of Adhesion Science and Technology 22 (2008) 545-567
Application Cellulose is a versatile starting material for several applications.
It is directly linked to the paper industry in which cellulose is used in a conventional way, as a structural material for paper and cardboard products and also in textiles to made cotton, linen, and other plant fibers.
On the other hand, nanobiohybrid (NBH) catalyst consist of supported material and enzyme.
Samir, Journal of Adhesion Science and Technology 22 (2008) 545-567
Online since: March 2022
Authors: Martin Vavruš, Peter Koteš
Its value applies only to a specific pair of materials.
Using the interface - "GAP" element, it is possible to model the contact between two surfaces of different materials.
Bahleda: Analysis of shear contact between wrapped layout of fiber reinforced concrete, POLLACK PERIODICA, International Journal for Engineering and Information Sciences, (2019) [7] D.
Simunek, Impact resistance of fiber-reinforced concrete, Advanced Materials Research, vol. 1054, ISSN: 1662-8985, pp. 48‒53.
Simunek, Impact resistance of fiber-reinforced concrete, in Advanced Materials Research, vol. 1054, 48-53., (2014) [15] P.
Using the interface - "GAP" element, it is possible to model the contact between two surfaces of different materials.
Bahleda: Analysis of shear contact between wrapped layout of fiber reinforced concrete, POLLACK PERIODICA, International Journal for Engineering and Information Sciences, (2019) [7] D.
Simunek, Impact resistance of fiber-reinforced concrete, Advanced Materials Research, vol. 1054, ISSN: 1662-8985, pp. 48‒53.
Simunek, Impact resistance of fiber-reinforced concrete, in Advanced Materials Research, vol. 1054, 48-53., (2014) [15] P.
Online since: November 2011
Authors: Yong Liang Gui, Chun Yan Song, Bin Sheng Hu, Hua Lou Guo
The maximum content of chlorine in these sticking materials is above 60%.
As indicated in Table1, EDS results of some adhesion materials on inwall of dust collecting box and TRT blades shown that abundant of chlorine were included in these adhesion materials.
The existence form of chlorine in these adhesion materials of gas pipeline inwall and TRT blades is not elementary substance but highest possible FeCl3 and FeCl2 owing to chlorine is a extraordinarily active nonmetal element.
Liu: Journal of Shandong Inst.
Cen: Journal of China Coal Society Vol. 27 (2002), p.398 (in Chinese)
As indicated in Table1, EDS results of some adhesion materials on inwall of dust collecting box and TRT blades shown that abundant of chlorine were included in these adhesion materials.
The existence form of chlorine in these adhesion materials of gas pipeline inwall and TRT blades is not elementary substance but highest possible FeCl3 and FeCl2 owing to chlorine is a extraordinarily active nonmetal element.
Liu: Journal of Shandong Inst.
Cen: Journal of China Coal Society Vol. 27 (2002), p.398 (in Chinese)
Online since: October 2011
Authors: Zhi He, Zhong Yao Zhang, Lan Yun Li, Hao Bin Zhou
The solute redistribution during solidification of Al-Si-Mg alloys
Zhi He1,a, Haobin Zhou1,b, Zhongyao Zhang2,c and Lanyun Li1,c
1College of Material Science and Engineering, Xi’an Shiyou University, 710065, Xi’an.
2Construction Engineering Department, Petrochina Changqing Oilfield, 710086, Xi’an
azhihe1978@xsyu.edu.cn, bhbzhou@xsyu.edu.cn, ccqjg99@163.com, dlanyunli@xsyu.edu.cn.
Introduction As the improving of material science and engineering, the mechanical properties of aluminum alloys become to better and better.
The aluminum alloys have been taken an important part of the building materials.
The multi-phase aluminum alloys are the most popular engineering materials[1], where one phase acts as the matrix and the others serve as the reinforcing elements.
The Chinese Journal of Nonferrous Metals, 2000, 10, 688.
Introduction As the improving of material science and engineering, the mechanical properties of aluminum alloys become to better and better.
The aluminum alloys have been taken an important part of the building materials.
The multi-phase aluminum alloys are the most popular engineering materials[1], where one phase acts as the matrix and the others serve as the reinforcing elements.
The Chinese Journal of Nonferrous Metals, 2000, 10, 688.
Online since: November 2011
Authors: Yong Heng Zhou, Kun Yu Zhao, Xin Liu, Wen Jiang, Qi Long Yong, Jie Su, Dong Ye
The Influence of Heat Treatment on Microstructure and Mechanical Properties of
Cr15 Super Martensitic Stainless Steel
Xin Liu 1,a, Kunyu Zhao1,b, Yongheng Zhou1,c, Dong Ye1,d,Wen Jiang1,e, Qilong Yong2,f and Jie Su2,g
1 College of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093,Yunnan,China
2 Institute of Structural Materials, Central Iron and Steel Research Institute, Beijing 100081,China
awanxin198649@126.com, bkyzhaoy@yahoo.com.cn, czhouheng_85@163.com, dnina8117@163.com, ejiangwen_shelley@yahoo.com.cn, fyongql@126.com, gsujie@163.com
Keywords: Supermartensite Stainless Steel, Quenching, Tempering, Microstructure, Property, Reversed Austenite
Abstract:The microstructure and mechanical properties of 15Cr super martensitic stainless steel after different heat treatments were studied.
(a) (b) Fig.7 (a) The effect of tempering temperatureson material’s mechanical properties (b) The tensile and elongation at different tempering temperatures after quenching at 1050℃ Fig.8 The relationship between reverse austenite content and the mechanical properties Conclusions (1) The microstructures of steel after quenching at 800~1100℃ consists quenched martensite and a small amount of retained austenite.
[4] Zhenbao Liu: Materials journal of heat treatment.Vol. 26(4) (2005),p.52(in Chinese)
(a) (b) Fig.7 (a) The effect of tempering temperatureson material’s mechanical properties (b) The tensile and elongation at different tempering temperatures after quenching at 1050℃ Fig.8 The relationship between reverse austenite content and the mechanical properties Conclusions (1) The microstructures of steel after quenching at 800~1100℃ consists quenched martensite and a small amount of retained austenite.
[4] Zhenbao Liu: Materials journal of heat treatment.Vol. 26(4) (2005),p.52(in Chinese)
Online since: August 2013
Authors: Ya Feng Xu, Shou Yan Bai, Ri Liang Li
Table 1 The mechanical property of material
Steel bone yield
strength[MPa]
Longitudinal bar yield
strength[MPa]
Stirrup yield
strength[MPa]
Concrete strength
[MPa]
235
335
335
38.5
The size of the model design and material properties.
Concrete is a kind of multiphase composite materials and its internal structure is very complex, so because of the complexity of the material properties of concrete leads to the complexity of constitutive relation [5].
Journal of lanzhou industrial college, Vol. 2 (2) (1992), p. 26-29
Science press, (2009), p. 49-50
Shanxi science and technology press, (2004).
Concrete is a kind of multiphase composite materials and its internal structure is very complex, so because of the complexity of the material properties of concrete leads to the complexity of constitutive relation [5].
Journal of lanzhou industrial college, Vol. 2 (2) (1992), p. 26-29
Science press, (2009), p. 49-50
Shanxi science and technology press, (2004).