Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2020
Authors: Lin Kai He, Mei Jun Liu, Qing Nan Meng, You Hong Sun
International Journal of Refractory Metals and Hard Materials, 2010. 28(2): 280-285
International Journal of Refractory Metals and Hard Materials, 2015. 52: 55-65
Journal of Composite Materials, 2017. 52(9): 1239-1251
Materials Science and Engineering: A, 2018. 719: 206-226
Journal of Composite Materials, 1987. 21
International Journal of Refractory Metals and Hard Materials, 2015. 52: 55-65
Journal of Composite Materials, 2017. 52(9): 1239-1251
Materials Science and Engineering: A, 2018. 719: 206-226
Journal of Composite Materials, 1987. 21
Online since: January 2021
Authors: Dena Bataev, Said Alvi Murtazaev, Magomed Nakhaev, Bakhytzhan Sarsenbayev, Madina Salamanova
IOP Conference Series: Materials Science and Engineering. (2017). 262(1). 012025. https://doi.org/10.1088/1757-899X/262/1/012025
[7] S.
IOP Conference Series: Materials Science and Engineering (2016). 156(1). 012042 [10] N.I.
Salamanova, Prospects for the use of thermally activated raw materials of aluminosilicate nature, Privolzhsky scientific journal (2018). 46.
Construction and Building Materials (2019). 222.
Advances in Materials Science and Engineering (2017). 2316347
IOP Conference Series: Materials Science and Engineering (2016). 156(1). 012042 [10] N.I.
Salamanova, Prospects for the use of thermally activated raw materials of aluminosilicate nature, Privolzhsky scientific journal (2018). 46.
Construction and Building Materials (2019). 222.
Advances in Materials Science and Engineering (2017). 2316347
Online since: November 2016
Authors: Hassan Elahi, Saad Asad, Shamraiz Ahmad, Ch Asad Abbas, Saad Waqar
Ramesh et al [4] placed Ti-6Al-4V in difficult to machine materials category.
Materials Characterization, 2003. 51(2): p. 131-139
Journal of the mechanical behavior of biomedical materials, 2009. 2(1): p. 20-32
Materials and Manufacturing Processes, 2008. 23(2): p. 174-181
Journal of materials processing technology, 2000. 101(1): p. 287-291
Materials Characterization, 2003. 51(2): p. 131-139
Journal of the mechanical behavior of biomedical materials, 2009. 2(1): p. 20-32
Materials and Manufacturing Processes, 2008. 23(2): p. 174-181
Journal of materials processing technology, 2000. 101(1): p. 287-291
Online since: September 2013
Authors: Shun Hua Liu, Yu Ping Duan, Bao Yi Li, Wan Jun Hao, Yue Fang Zhang
Cement based electromagnetic shielding and absorbing building materials.
Journal of Materials Science.
Journal of Materials Science.
Journal of Materials Science.
Materials and Design, 2011, 32(5): 3017-3020
Journal of Materials Science.
Journal of Materials Science.
Journal of Materials Science.
Materials and Design, 2011, 32(5): 3017-3020
Online since: March 2023
Authors: Kahirul Amdani, Habibi Azka Nasution, Eviyona Laurenta Br Barus, Laili Suryani, Muhammad Kadri, Silvia Dona Sari, Dina Alfariza Nst, Budiman Nasution, Iswari Afala
To reduce this impact, materials that are more environmentally friendly are used.
Several types of substitute materials have been offered.
Among these materials are silica fume and liquid carbon dioxide.
However, literature comparing the two materials is not available.
Simulations were carried out on two different types of concrete mix materials to see the effectiveness and the best materials for high-rise building structures.
Several types of substitute materials have been offered.
Among these materials are silica fume and liquid carbon dioxide.
However, literature comparing the two materials is not available.
Simulations were carried out on two different types of concrete mix materials to see the effectiveness and the best materials for high-rise building structures.
Online since: August 2019
Authors: Rohit U. Krishnan, Jithin Mohan, George Alex, J.P. Arjun, Aravind Krishnan, K.U. Dev Darshan, Karthik V. Shankar
Journal of Nuclear Materials, 329-333(1-3 PART A), 804-808
International Journal of Electrochemical Science, 10(2), 1728-1741
Engineering Science and Technology, an International Journal, 19(3), 1593-1599
Materials and Design, 46, 740-745
International Journal of Materials Engineering Innovation, 7(2), 89-103
International Journal of Electrochemical Science, 10(2), 1728-1741
Engineering Science and Technology, an International Journal, 19(3), 1593-1599
Materials and Design, 46, 740-745
International Journal of Materials Engineering Innovation, 7(2), 89-103
Online since: July 2022
Authors: Mikhail G. Bruyako, Dien Vu Kim, Sofia I. Bazhenova
World Applied Sciences Journal 25(1) 48–54 (2013)
Construction and Building Materials 200, 637–647 (2019)
Journal of Food Engineering 115(3) 415–423 (2013)
Formation of a cellular structure and technology of foams from zeolite-containing raw materials 262 (2002)
Construction and Building Materials 241, 1-17 (2020)
Construction and Building Materials 200, 637–647 (2019)
Journal of Food Engineering 115(3) 415–423 (2013)
Formation of a cellular structure and technology of foams from zeolite-containing raw materials 262 (2002)
Construction and Building Materials 241, 1-17 (2020)
Online since: October 2020
Authors: Nuha Hadi Jasim Al Hasan
Fibers of thermoplastic materials, for example, polylactic acid is for the most part utilized as crude materials.
Aunchanlung, Copartion of fiber types in polyatic acid composites for 3D printing applications matter, International Journal of Science and Technology. 2019;5(3)
Series: Journal of Physics: Conf.
Jia, Study on Effects of FDM 3D Printing Parameters on Mechanical Properties of Polylactic Acid, InIOP Conference Series: Materials Science and Engineering 2019 Nov (Vol. 688, No. 3, p. 033026).
Materials. 2015 Sep;8(9):5834-46
Aunchanlung, Copartion of fiber types in polyatic acid composites for 3D printing applications matter, International Journal of Science and Technology. 2019;5(3)
Series: Journal of Physics: Conf.
Jia, Study on Effects of FDM 3D Printing Parameters on Mechanical Properties of Polylactic Acid, InIOP Conference Series: Materials Science and Engineering 2019 Nov (Vol. 688, No. 3, p. 033026).
Materials. 2015 Sep;8(9):5834-46
Online since: January 2013
Authors: Zhi Min Zhang, Yong Xue, Yao Jin Wu
Experimental materials and methods
Mg-8.9wt%Al-0.53wt%Zn alloy ingots were adopted as the materials for experiment.
By comparing C with Cmax, the risk of material failure during processing is assessed.
According to the dynamic material model, D equals to covariate J.
Acknowledgements The present research is supported by the National Natural Science Foundation of China (Grant No. 50735005, No.50605059), Natural Science Foundation for Young Scientists of Shanxi Province, China (Grant No.2007021026), and Natural Science Foundation of North University of China.
References [1] R.Sowerby and N.Chandrasekaran: Materials Science and Engineering Vol.79 (1986), p.27 [2] C.Dorum, O.S.Hopperstad, T.Bersliad: Engineering Fracture Mechanics Vol.76 (2009), p.2232 [3] D.C.Ko, B.Y .Kim, J.C.Choi: Journal of Materials Processing Technology Vol.62 (1996), p.166 [4] M.Pereira, G.Rubim O.Acselrad: Journal of Materials Processing Technology Vol.203 (2008), p.13 [5] Y.V.R.K.Prasad: Indian Journal of Technology Vol.28 (1990), p.435 [6] Y.V.R.K.Prasad, T.Seshacharyulu: International Materials Reviews Vol.43 (1998), p.243 [7] H.L.Gegel: Computer Simulation in Materials Science.OH: ASM 1986, p.91 [8] Y.Kojima, T.Aizawa, K.Higashi, S.Kamado: Materials Science Forum Vol.419 -422(2003), p.249 [9] S.I.Oh, C.C.Chen, S.Kobayashi S: Journal of Engineering for Industry, Transaction of the ASME Vol.101 (1979), p.23 [10] A.G.Atkins: Metal Science Vol. 15(1981), p.81 [11] V.Vujovic and A.H.Shabaik: Journal of Engineering materials and Technology, Transactions of the
By comparing C with Cmax, the risk of material failure during processing is assessed.
According to the dynamic material model, D equals to covariate J.
Acknowledgements The present research is supported by the National Natural Science Foundation of China (Grant No. 50735005, No.50605059), Natural Science Foundation for Young Scientists of Shanxi Province, China (Grant No.2007021026), and Natural Science Foundation of North University of China.
References [1] R.Sowerby and N.Chandrasekaran: Materials Science and Engineering Vol.79 (1986), p.27 [2] C.Dorum, O.S.Hopperstad, T.Bersliad: Engineering Fracture Mechanics Vol.76 (2009), p.2232 [3] D.C.Ko, B.Y .Kim, J.C.Choi: Journal of Materials Processing Technology Vol.62 (1996), p.166 [4] M.Pereira, G.Rubim O.Acselrad: Journal of Materials Processing Technology Vol.203 (2008), p.13 [5] Y.V.R.K.Prasad: Indian Journal of Technology Vol.28 (1990), p.435 [6] Y.V.R.K.Prasad, T.Seshacharyulu: International Materials Reviews Vol.43 (1998), p.243 [7] H.L.Gegel: Computer Simulation in Materials Science.OH: ASM 1986, p.91 [8] Y.Kojima, T.Aizawa, K.Higashi, S.Kamado: Materials Science Forum Vol.419 -422(2003), p.249 [9] S.I.Oh, C.C.Chen, S.Kobayashi S: Journal of Engineering for Industry, Transaction of the ASME Vol.101 (1979), p.23 [10] A.G.Atkins: Metal Science Vol. 15(1981), p.81 [11] V.Vujovic and A.H.Shabaik: Journal of Engineering materials and Technology, Transactions of the