Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: April 2011
Authors: Z.X. Yao, H.M. Hu, S.Y. Zeng, B.B. Yu
Raw materials and experimental design
Raw materials.
,LTD Polycarboxylic 40 Liquid 3 Mapei Mapei Construction Materials (Shanghai) Co., Ltd.
Polycarboxylic 20 Liquid 4 Sika ViscoCrete3310C Sika China Group Polycarboxylic 20 Liquid 5 Xingbang Xingbang admixture plant in Suzhou,Jiangshu Polycarboxylic 40 Liquid 6 Point(Normal) Point Prominent Science New Materials Co., Ltd,Fujian Naphthalene(FDN) - Powder 7 Point (Retarding) Point-500 Prominent Science New Materials Co., Ltd,Fujian Naphthalene (FDN) - Powder Experimental design.
Cementitious materials include cement, fly ash and silica fume, whose blending ratio is: 60%:35%:5%.
ACI Material Journal,2005,92(2):164-172
,LTD Polycarboxylic 40 Liquid 3 Mapei Mapei Construction Materials (Shanghai) Co., Ltd.
Polycarboxylic 20 Liquid 4 Sika ViscoCrete3310C Sika China Group Polycarboxylic 20 Liquid 5 Xingbang Xingbang admixture plant in Suzhou,Jiangshu Polycarboxylic 40 Liquid 6 Point(Normal) Point Prominent Science New Materials Co., Ltd,Fujian Naphthalene(FDN) - Powder 7 Point (Retarding) Point-500 Prominent Science New Materials Co., Ltd,Fujian Naphthalene (FDN) - Powder Experimental design.
Cementitious materials include cement, fly ash and silica fume, whose blending ratio is: 60%:35%:5%.
ACI Material Journal,2005,92(2):164-172
Online since: March 2018
Authors: Shijie Zhu, Long Zhou Lyu
Dielectric elastomer is functional material that can convert electrical energy to mechanical energy.
In particular, when large deformation is required, the materials can be utilized as actuators in adaptive structures, such as adaptive lens [2], robots [3], electric generators [4] and prosthetic devices [5].
Kofod: High-Strain Actuator Materials Based on Dielectric Elastomer, Advanced Materials, Vol. 12 (2000), p. 23 [2] S.
Michael: An Arm Wresting Robot Driven by Dielectric Elastomer Actuators, Smart Materials and Structures, Vol. 16 (2007), p. 306 [4] L.
Lauren: Electrostrictive Polymers for Mechanical Energy Harvesting, Journal of Polymer Science, Vol. 50 (2012), p. 523 [5] Y.
In particular, when large deformation is required, the materials can be utilized as actuators in adaptive structures, such as adaptive lens [2], robots [3], electric generators [4] and prosthetic devices [5].
Kofod: High-Strain Actuator Materials Based on Dielectric Elastomer, Advanced Materials, Vol. 12 (2000), p. 23 [2] S.
Michael: An Arm Wresting Robot Driven by Dielectric Elastomer Actuators, Smart Materials and Structures, Vol. 16 (2007), p. 306 [4] L.
Lauren: Electrostrictive Polymers for Mechanical Energy Harvesting, Journal of Polymer Science, Vol. 50 (2012), p. 523 [5] Y.
Online since: September 2013
Authors: Napatip Phakdee, Prasong Kessaratikoon, Darunee Peekhuntod
Quantitative Measurement of Gamma Activities of Radionuclides
(131I, 137Cs, 134Cs and 40K) in Human Urine Samples Collected from
Residents in Southern Region of Thailand
Napatip Phakdee1,a, Prasong Kessaratikoon2,b and Darunee Peekhuntod3,c
1Graduate Student, Department of Physics, Faculty of Science, Thaksin University, Muang, Songkhla, 90000, Thailand
2Nuclear and Material Physics Research Unit, Department of Physics, Faculty of Science, Thaksin University, Muang,Songkhla, 90000, Thailand
3Nuclear Scientist, Office of Atoms for Peace, 16 Vibhavadi Rangsit Rd, Chatuchak, Bangkok, 10900.
The largest proportion of human exposure to radiation comes from natural sources of external radiation, including cosmic and terrestrial radiation and from inhalation or ingestion of natural radioactive materials [1].
Gamma spectrometry The gamma activities of radionuclides (131I, 137Cs, 134Cs and 40K) in 90 human urine samples were determined by employing a high–purity germanium detector (HPGe, CANBERRA Model GC 2018) (refer with: Fig. 2) and gamma spectrometry analysis system at Nuclear and Material Physics Laboratory Department of Physics Faculty of Science Thaksin University.
The authors would like to thank Department of Physics, Faculty of Science, Thaksin University for allowing us to use all instruments and radioactive standard sources at Nuclear and Material Physics Laboratory.
Thorium and uranium contents in human urine: influence of age and residential area, Journal of Environmental Radioactivity. 71 (2004) 61–70
The largest proportion of human exposure to radiation comes from natural sources of external radiation, including cosmic and terrestrial radiation and from inhalation or ingestion of natural radioactive materials [1].
Gamma spectrometry The gamma activities of radionuclides (131I, 137Cs, 134Cs and 40K) in 90 human urine samples were determined by employing a high–purity germanium detector (HPGe, CANBERRA Model GC 2018) (refer with: Fig. 2) and gamma spectrometry analysis system at Nuclear and Material Physics Laboratory Department of Physics Faculty of Science Thaksin University.
The authors would like to thank Department of Physics, Faculty of Science, Thaksin University for allowing us to use all instruments and radioactive standard sources at Nuclear and Material Physics Laboratory.
Thorium and uranium contents in human urine: influence of age and residential area, Journal of Environmental Radioactivity. 71 (2004) 61–70
Online since: January 2017
Authors: Xiao Yan Wang, Li Luo, Yu Min Zhang, Jian Hong Zhao, Hai Wang, Lei Ming Yu, Tao Yu Zou, Zhen Fang Qiao
Introduction
Recently, Organic-inorganic perovskite structured materials based on organolead trihalide compounds have been developed, resulting in very effective absorber in solar cells, with verified efficiencies of up to 22.10%.[1] Moreover, this family of materials suitable for solution fabrication photovoltaic solar cells.
Kim: The Journal of Physical Chemistry C, Vol. 118 (2014) No.46, p.26513
Boyen: Advanced Materials, Vol. 26 (2014) No.13, p.2041
Huang: Advanced Materials, Vol. 26 (2014) No.37, p.6503
Snaith: Advanced Functional Materials, Vol. 24 (2014) No.1, p.151.
Kim: The Journal of Physical Chemistry C, Vol. 118 (2014) No.46, p.26513
Boyen: Advanced Materials, Vol. 26 (2014) No.13, p.2041
Huang: Advanced Materials, Vol. 26 (2014) No.37, p.6503
Snaith: Advanced Functional Materials, Vol. 24 (2014) No.1, p.151.
Online since: January 2022
Authors: Putu Hadi Setyarini, Dwi Windu Kinanti Arti, R.M Bagus Irawan, Muhammad Subri, Purnomo Purnomo
Surface modification with plasma has been widely applied to polymeric materials.
International Journal of Science and Research, 5 (2016) 1468 [5] C.
Materials, 12 (2019) 658
Hein, Surface modification of polymeric materials by cold atmospheric plasma jet.
B: Beam Interactions with Materials and Atoms, 208 (2003) 281-286
International Journal of Science and Research, 5 (2016) 1468 [5] C.
Materials, 12 (2019) 658
Hein, Surface modification of polymeric materials by cold atmospheric plasma jet.
B: Beam Interactions with Materials and Atoms, 208 (2003) 281-286
Online since: March 2016
Authors: Andrzej Nowotnik, Ryszard Filip, Maciej Pytel, Marek Góral
Solid State Phenomena, Volume 227, 2015, Pp 317-320
[6] Goral, M., Dudek, S., Filip, R. , Sieniawski, J., Materials Science Forum, Vol. 706-709, 2012, Pp. 2412-2417
[7] Lee, W.
Key Engineering Materials Volume 465, 2011, Pages 247-250 [14] Filip, R., Góral, M., Zawadzki, M., Nowotnik, A., Pytel, M.
Key Engineering Materials, Vol. 592-593, 2014, Pages 469-472 [15] Swadźba, R., Wiedermann, J, Hetmańczyk, M., Swadźba, L., Mendala, B.
[16] Swadźba, L., Maciejny, A., Formanek, B., Mendala, B., Materials Science Forum, Vol. 251-254, Issue PART 2, 1997, Pp 793-800 [17] Goral, M., Kotowski, S., Dychton, K., Drajewicz, M., Kubaszek, T, Key Engineering Materials, Vol. 592-593, 2014, Pp 421-424 [18] Pint B.A.: Surface & Coatings Tehnology, 188-189 (2004), Pp. 71–78 [19] Nowotnik, A., Goral, M., Pytel, M., Dychton, K., Solid State Phenomena, Vol. 197, 2013, Pp 95-100 [20] Swadzba L., Materials Science Forum, Vol. 163-6, Issue pt 2, 1994, Pp 619-626 [21] Pytel, M., Góral, M., Maliniak, M.
,Archives of Materials Science and Engineering, Vol. 53, Issue 2, February 2012, Pages 102-108 [21] Swadźba, L., Macienjny, A., Formanek, B., Biedroń, J.
Key Engineering Materials Volume 465, 2011, Pages 247-250 [14] Filip, R., Góral, M., Zawadzki, M., Nowotnik, A., Pytel, M.
Key Engineering Materials, Vol. 592-593, 2014, Pages 469-472 [15] Swadźba, R., Wiedermann, J, Hetmańczyk, M., Swadźba, L., Mendala, B.
[16] Swadźba, L., Maciejny, A., Formanek, B., Mendala, B., Materials Science Forum, Vol. 251-254, Issue PART 2, 1997, Pp 793-800 [17] Goral, M., Kotowski, S., Dychton, K., Drajewicz, M., Kubaszek, T, Key Engineering Materials, Vol. 592-593, 2014, Pp 421-424 [18] Pint B.A.: Surface & Coatings Tehnology, 188-189 (2004), Pp. 71–78 [19] Nowotnik, A., Goral, M., Pytel, M., Dychton, K., Solid State Phenomena, Vol. 197, 2013, Pp 95-100 [20] Swadzba L., Materials Science Forum, Vol. 163-6, Issue pt 2, 1994, Pp 619-626 [21] Pytel, M., Góral, M., Maliniak, M.
,Archives of Materials Science and Engineering, Vol. 53, Issue 2, February 2012, Pages 102-108 [21] Swadźba, L., Macienjny, A., Formanek, B., Biedroń, J.
Online since: January 2014
Authors: Jian Feng Bai, Wen Jie Wu, Yuan Zhou, Jing Wei Wang
The raw materials of printing supplies are paper, resins and water.
Remanufactured products use recycling waste toner cartridge as raw materials.
The trends of reproductive consumption materials industry.
Murakami Technology for recycling plastic materials.
Progress in separating plastic materials for recycling.
Remanufactured products use recycling waste toner cartridge as raw materials.
The trends of reproductive consumption materials industry.
Murakami Technology for recycling plastic materials.
Progress in separating plastic materials for recycling.
Online since: April 2016
Authors: Chao Hui Li, Xiu Li Lou, Jun Xia Wen, Dao Jie Jiang, Xiu Xia Zhang, Guan Nan Du, Rong Fan
The nano-diamond films prepared on the Aluminum plate to increased the capacitor's charge ability due to large surface area of nano-materials.
Materials Chemistry and Physics. 75(2002):6-11
[2] JIANG N, SUGIMOTO K, EGUCHI K, et al: J .Journal of Crystal Growth . 222(2001):591-594
Inorganic Materials, ,27(2012) 855-859
Ye, et al: Diamond and Related Materials . 2006 [8] F.H.
Materials Chemistry and Physics. 75(2002):6-11
[2] JIANG N, SUGIMOTO K, EGUCHI K, et al: J .Journal of Crystal Growth . 222(2001):591-594
Inorganic Materials, ,27(2012) 855-859
Ye, et al: Diamond and Related Materials . 2006 [8] F.H.
Online since: October 2015
Authors: Diana Irinel Băilă
Sintering materials of Co-Cr powders manufactured by DMLS process
The Co-Cr powder was sintered by DMLS process, using a machine Phenix Systems and is realized 3 probes.
The SEM analysis realized on the Co-Cr sintered samples determine the biodegradability of the probes in artificial saliva Fusayama Meyer and the materials present form more roundness with fines porosities.
Lemons, Biomaterials Science – An introduction to materials in medicine, 3-rd Edition, ISBN 9780123746269, Academic Press, 2013; [2] INCO (International nickel company.
Meyer, Effects of fluorides on titanium and other dental alloys in dentistry, Biomaterials Journal, 1998, p. 85-92; [6] W.F.
Hosford, Mechanical behavior of materials, Cambridge University Press, 2005; [7] http://www.corrosionpedia.com/definition/1379/linear-polarization-resistance-lpr.
The SEM analysis realized on the Co-Cr sintered samples determine the biodegradability of the probes in artificial saliva Fusayama Meyer and the materials present form more roundness with fines porosities.
Lemons, Biomaterials Science – An introduction to materials in medicine, 3-rd Edition, ISBN 9780123746269, Academic Press, 2013; [2] INCO (International nickel company.
Meyer, Effects of fluorides on titanium and other dental alloys in dentistry, Biomaterials Journal, 1998, p. 85-92; [6] W.F.
Hosford, Mechanical behavior of materials, Cambridge University Press, 2005; [7] http://www.corrosionpedia.com/definition/1379/linear-polarization-resistance-lpr.
Online since: May 2015
Authors: S.M.A. Al-Qawabah, Adnan I.O. Zaid, Jehad A.S. AlKasasbeh
Materials, equipment and experimental procedures
Materials.
Torres-Villasen˜or: Materials Characterization, Vol. 51(2003), p.63– 67
El Baradie: Journal of Materials Processing Technology, Vol. 84(1998), p. 73-78
P”urc,ek: Journal of Materials Processing Technology, Vol.169(2005), p. 242-248
Delo: Materials and Design, Vol.21(200), p. 311-322
Torres-Villasen˜or: Materials Characterization, Vol. 51(2003), p.63– 67
El Baradie: Journal of Materials Processing Technology, Vol. 84(1998), p. 73-78
P”urc,ek: Journal of Materials Processing Technology, Vol.169(2005), p. 242-248
Delo: Materials and Design, Vol.21(200), p. 311-322