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Online since: October 2014
Authors: Toru Fujii, Noboru Wakamoto, Kazuya Okubo, Gibeop Nam
Experiments
Materials
The thermoplastic polymer PP, used as matrix material, was supplied by the Primepolymer(Japan).
Journal of Thermoplastic Composites Materials.
Kokta journal of Applied Polymer Science vol. 48, pp.2181-2196 (1993) [10] L.
Ansell, Journal of Applied Polymer Science, 84 (12), pp. 2222–2234 (2002) [11] A.
Sain Journal of Applied Polymer Science Vol.103, pp 2432–2441 (2007) Materials Research (2003)
Journal of Thermoplastic Composites Materials.
Kokta journal of Applied Polymer Science vol. 48, pp.2181-2196 (1993) [10] L.
Ansell, Journal of Applied Polymer Science, 84 (12), pp. 2222–2234 (2002) [11] A.
Sain Journal of Applied Polymer Science Vol.103, pp 2432–2441 (2007) Materials Research (2003)
Online since: May 2023
Authors: Fauzilah Ismail, Ainie Abdul Shukor, Niraku Rosmawati Ahmad, Ahmad Kamil Arshad, Faizah Kamarudin
Desiccation is the process of extreme drying that results in cracking in materials such as soils.
Their crack behaviour was monitored at different thickness and comparison made to the samples tested on different base materials such as ceramic, steel and wood plates.
Fig. 4 Moisture content reduction and drying time of various base materials.
The samples are identified according to their base materials, number, average room temperature (30°C) and sample thickness.
v) CIF value is altered when different base materials are utilised.
Their crack behaviour was monitored at different thickness and comparison made to the samples tested on different base materials such as ceramic, steel and wood plates.
Fig. 4 Moisture content reduction and drying time of various base materials.
The samples are identified according to their base materials, number, average room temperature (30°C) and sample thickness.
v) CIF value is altered when different base materials are utilised.
Online since: January 2022
Authors: Sanket Dattatraya Gite, Hanmant Virbhadra Shete
Materials and Method
2.1 Experimental Design
AISI 310 stainless steel was selected as work piece material in AGMAW process, as it is widely used in applications involving high temperature and severe conditions.
Gandhinathan, Process parameters for metal inert gas welding of mild steel by using Taguchi technique – A review, International journal of material sciences and technology, Research india publications, 10, (2020), 1-14
Dasharath, Modelling and optimization of electron beam welding process using ANOVA, International symposium of research students on material science and engineering, 20, (2004), 1-11
Ashrafizadeh, Micro structural evolutions in dissimilar welds between AISI 310 austenitic stainless steel and Inconel 657, Journal of materials science, 45, 2564– 2573
Fathy, Effect of welding processes on mechanical and microstructural characteristics of DP780 steel welded joints for the automotive industry, Key engineering materials, 835, (2020), 101-107
Gandhinathan, Process parameters for metal inert gas welding of mild steel by using Taguchi technique – A review, International journal of material sciences and technology, Research india publications, 10, (2020), 1-14
Dasharath, Modelling and optimization of electron beam welding process using ANOVA, International symposium of research students on material science and engineering, 20, (2004), 1-11
Ashrafizadeh, Micro structural evolutions in dissimilar welds between AISI 310 austenitic stainless steel and Inconel 657, Journal of materials science, 45, 2564– 2573
Fathy, Effect of welding processes on mechanical and microstructural characteristics of DP780 steel welded joints for the automotive industry, Key engineering materials, 835, (2020), 101-107
Online since: December 2014
Authors: Daniel Rodrigues, Marcos Flavio de Campos, Célio de Jesus Marcelo, Kaio Sérgio Torres de Souza, José Adilson de Castro
Chen: Journal of Magnetism and Magnetic Materials Vol. 48 (2002), p. 432
[5].M.F. de Campos: Materials Science Forum Vol. 660-661 (2010), p. 284
Hulda: Materials Science Forum Vol. 467-470 (2004), p. 985
Ferrante: Journal of Materials Synthesis and Processing.
Rodrigues, M.F. de Campos: Materials Science Forum Vols. 727-728 (2012), p. 440
[5].M.F. de Campos: Materials Science Forum Vol. 660-661 (2010), p. 284
Hulda: Materials Science Forum Vol. 467-470 (2004), p. 985
Ferrante: Journal of Materials Synthesis and Processing.
Rodrigues, M.F. de Campos: Materials Science Forum Vols. 727-728 (2012), p. 440
Online since: August 2018
Authors: Chakrit Suvanjumrat, Ravivat Rugsaj
The cylindrical specimens were cut and ground with abrasive materials until the desired thickness was achieved according to ASTM D575.
The stress vs. strain of the spoke material by the tensile testing method.
Cron, Development of a non-pneumatic wheel, Tire Science and Technology. 34 (2006) 150-169
Thompson, Rolling resistance of a nonpneumatic tire having a porous elastomer composite shear band, Tire Science and Technology. 41 (2013) 154-173
Rao, Hyperelastic Mooney-Rivlin model: determination and physical interpretation of material constants, MIT International Journal of Mechanical Engineering. 6 (2016) 43-46.
The stress vs. strain of the spoke material by the tensile testing method.
Cron, Development of a non-pneumatic wheel, Tire Science and Technology. 34 (2006) 150-169
Thompson, Rolling resistance of a nonpneumatic tire having a porous elastomer composite shear band, Tire Science and Technology. 41 (2013) 154-173
Rao, Hyperelastic Mooney-Rivlin model: determination and physical interpretation of material constants, MIT International Journal of Mechanical Engineering. 6 (2016) 43-46.
Online since: May 2011
Authors: Shu Cai Li, Ning Zhang, Ming Tian Li
According to the similarity principle the mechanical parameters of sandstone, rock bolts and their corresponding similar materials used in tests are shown in Table 1 and 2 when the similarity ration is designed as 10.
Table 1 Physical and mechanical parameters for rock-like materials and sandstone parameters Compressive strength σc[MPa] Tensile strengh σt[MPa] Elastic modulus E[GPa] Poission ratio ν Toughness KIC[MPa·m0.5] Unit weight ρ[g·cm-3] Rock-like material 35.54 2.82 17.92 0.192 0.512 2.3 Sandstone 20~170 4~25 4.9~78.5 0.02-0.2 0.22~2.26 2.1 Table 2 Mechanical parameters for rock bolt and rockbolt-like material parameters Tensile strengh σt[MPa] Elastic modulus E[GPa] Rockbolt-like material 50-60 20-22 Rockbolt 500-600 200-220 A new rubber powder modified cement mortar is made to satisfy the similarity principle.
Its mechanical properties depend on the materials and manufacture techniques for the glass fiber reinforce plastic.
Liu, Chinese Journal of Geotechnical engineering, Vol.10(1988), p. 8-19 [7] Z.H.Zou, Z.L.Wang, Chinese Journal of Geotechnical Engineering, Vol. 15(1993), p.71-79 [8] J.H.
Zhang, Chinese Journal of Geotechnical Engineering, Vol. 28(2006), p.29-32
Table 1 Physical and mechanical parameters for rock-like materials and sandstone parameters Compressive strength σc[MPa] Tensile strengh σt[MPa] Elastic modulus E[GPa] Poission ratio ν Toughness KIC[MPa·m0.5] Unit weight ρ[g·cm-3] Rock-like material 35.54 2.82 17.92 0.192 0.512 2.3 Sandstone 20~170 4~25 4.9~78.5 0.02-0.2 0.22~2.26 2.1 Table 2 Mechanical parameters for rock bolt and rockbolt-like material parameters Tensile strengh σt[MPa] Elastic modulus E[GPa] Rockbolt-like material 50-60 20-22 Rockbolt 500-600 200-220 A new rubber powder modified cement mortar is made to satisfy the similarity principle.
Its mechanical properties depend on the materials and manufacture techniques for the glass fiber reinforce plastic.
Liu, Chinese Journal of Geotechnical engineering, Vol.10(1988), p. 8-19 [7] Z.H.Zou, Z.L.Wang, Chinese Journal of Geotechnical Engineering, Vol. 15(1993), p.71-79 [8] J.H.
Zhang, Chinese Journal of Geotechnical Engineering, Vol. 28(2006), p.29-32
Online since: February 2012
Authors: Guang Sheng Kang, Zhong Xia Liu, Niu Can Liu
Tsaoc: Materials Science and Engineering A Vol. 364(2004), p.305
[3] S.
Takahashi: Metallurgical and Materials Transactions A Vol. 35A (2004), p.333 [5] X.F.
Bian: Journal of Alloys and Compounds Vol. 391 (2005), p.90 [6] J.Y.
Choi: Journal of Materials Science Vol. 33 (1998), p.5015 [7] H.K.
Wei: Journal of Materials Processing Technology Vol. 137 (2003), p.183 [9] N.C.
Takahashi: Metallurgical and Materials Transactions A Vol. 35A (2004), p.333 [5] X.F.
Bian: Journal of Alloys and Compounds Vol. 391 (2005), p.90 [6] J.Y.
Choi: Journal of Materials Science Vol. 33 (1998), p.5015 [7] H.K.
Wei: Journal of Materials Processing Technology Vol. 137 (2003), p.183 [9] N.C.
Online since: April 2021
Authors: Sridhar Bhupathi, M V S S Sastri
Materials Used
Bitumen of viscosity grade 30 was used in the experiment.
[2] Qasrawi, H., "Hardened Properties of Green Self-Consolidating Concrete Made with Steel Slag Coarse Aggregates under Hot Conditions," ACI Materials Journal, vol. 117, pp. 107-118, (2020).
A., "Optimization of Steel Slag Aggregates for Bituminous Mixes in Saudi Arabia," Journal of Materials in Civil Engineering, vol. 11, pp. 30-35, (1999).
-Y., "Reducing Volume Expansion of Steel Slag by Using a Surface Hydrophobic Waterproof Structure," Journal of Materials in Civil Engineering, vol. 32, p. 04020303, (2020).
-Y., "Increasing Microwave Heating Efficiency of Asphalt-Coated Aggregates Mixed with Modified Steel Slag Particles," Journal of Materials in Civil Engineering, vol. 29, p. 04017171, 2017/10/01 (2017).
[2] Qasrawi, H., "Hardened Properties of Green Self-Consolidating Concrete Made with Steel Slag Coarse Aggregates under Hot Conditions," ACI Materials Journal, vol. 117, pp. 107-118, (2020).
A., "Optimization of Steel Slag Aggregates for Bituminous Mixes in Saudi Arabia," Journal of Materials in Civil Engineering, vol. 11, pp. 30-35, (1999).
-Y., "Reducing Volume Expansion of Steel Slag by Using a Surface Hydrophobic Waterproof Structure," Journal of Materials in Civil Engineering, vol. 32, p. 04020303, (2020).
-Y., "Increasing Microwave Heating Efficiency of Asphalt-Coated Aggregates Mixed with Modified Steel Slag Particles," Journal of Materials in Civil Engineering, vol. 29, p. 04017171, 2017/10/01 (2017).
Online since: June 2018
Authors: Xiao Fei Li, Wen Sheng Ran, Bo Yang, Mao Hua Li
Amlouk, Materials Science in Semiconductor Processing. 30(2014)218-222
Wang, Materials Letters. 121(2014)105-109
Wang, Materials Letters. 641(2010)590-596
Li, Materials Letters. 65(2011)555-562
Xu, Optical Materials. 72(2017)529-534
Wang, Materials Letters. 121(2014)105-109
Wang, Materials Letters. 641(2010)590-596
Li, Materials Letters. 65(2011)555-562
Xu, Optical Materials. 72(2017)529-534
Online since: September 2024
Authors: Eugenie Marie A. Pranada, Pamela Marielle C. Gahol, Menandro C. Marquez, Hydralyn T. Gammad
The use of rare earth materials such as samarium as a dopant to metal oxides attracted the scientific community since it has the ability to modify the properties of industrially used metal oxides.
Methodology Materials.
Erwin, “Doped nanocrystals,” Science, vol. 319, no. 5871. (2008) [5] R.B.
Agarwal, “Low field room temperature magnetism and band gap modifications in Sm doped SnO2,” Journal of Materials Science: Materials in Electronics, vol. 27, no. 3, (2016) [11] Y.
Ran et al., “Sm-doped SnO2 nanoparticles synthesized via solvothermal method as a high-performance formaldehyde sensing material for gas sensors,” Journal of Materials Science: Materials in Electronics, vol. 32, no. 7, (2021)
Methodology Materials.
Erwin, “Doped nanocrystals,” Science, vol. 319, no. 5871. (2008) [5] R.B.
Agarwal, “Low field room temperature magnetism and band gap modifications in Sm doped SnO2,” Journal of Materials Science: Materials in Electronics, vol. 27, no. 3, (2016) [11] Y.
Ran et al., “Sm-doped SnO2 nanoparticles synthesized via solvothermal method as a high-performance formaldehyde sensing material for gas sensors,” Journal of Materials Science: Materials in Electronics, vol. 32, no. 7, (2021)