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Online since: June 2014
Authors: A. Nurulhuda, Arshad Azrina, Shaiful Anuar Ismail, Ali Rafidah, Yacob Suhaila
Figure 1: Schematic diagram for microwave hybrid sintering setup.
Table 1 shown SEM image, calculated average particle sizes and standard deviations.
References [1] C.
Wong (2005) Enhancing overall mechanical performance of metallic materials using two-directional microwave assisted rapid sintering, Scripta Materialia Vol.52, pg. 479-483 [3] J.
Scripta Materialia 52 (2005) 479-483 [12] R.Roy, D.K.Agrawal, and J.P.Cheng, Process for sintering powder metal components.
Table 1 shown SEM image, calculated average particle sizes and standard deviations.
References [1] C.
Wong (2005) Enhancing overall mechanical performance of metallic materials using two-directional microwave assisted rapid sintering, Scripta Materialia Vol.52, pg. 479-483 [3] J.
Scripta Materialia 52 (2005) 479-483 [12] R.Roy, D.K.Agrawal, and J.P.Cheng, Process for sintering powder metal components.
Online since: May 2013
Authors: Ladislav Morovič, Jozef Peterka, Ivan Buranský
Then the object to be digitized was clamped into the fixture (Fig. 1 c).
The result of 3D optical scanning is a digital 3D model (Fig. 1 d) that can be used for RE.
References [1] V.
A jövő járműve - Járműipari innováció, Vol. 5, (2011), 1–2, p. 63-70., HU ISSN 1788-2699.
Advanced Materials Research Vols. 479-481 (2012) p. 561-564., Trans Tech Publications, Switzerland, doi:10.4028/www.scientific.net/AMR.479-481.561 [8] Web page of Applied Rapid Technologies (ART) Corp.
The result of 3D optical scanning is a digital 3D model (Fig. 1 d) that can be used for RE.
References [1] V.
A jövő járműve - Járműipari innováció, Vol. 5, (2011), 1–2, p. 63-70., HU ISSN 1788-2699.
Advanced Materials Research Vols. 479-481 (2012) p. 561-564., Trans Tech Publications, Switzerland, doi:10.4028/www.scientific.net/AMR.479-481.561 [8] Web page of Applied Rapid Technologies (ART) Corp.
Online since: September 2012
Authors: Han Huang, Li Bo Zhou, An Shun He
The typical properties of LiTaO3 are listed in Table 1.
The load functions for nanoindentation and nanoscratch are shown in Fig. 1.
Fig. 3: Load-displacement curves for LiTaO3 (a) with different loading times and the same peak load of 9 mN; (b) at the peak load of 479 μN, fitted by Eq. 3; and (c) showing and pop-in events (suggested by the legend) at the peak load of 1 mN.
References [1] M.
A Vol. 479 (2008), p. 37 [5] T Sumitomo, H Huang, L Zhou and J Shimizu: Int.
The load functions for nanoindentation and nanoscratch are shown in Fig. 1.
Fig. 3: Load-displacement curves for LiTaO3 (a) with different loading times and the same peak load of 9 mN; (b) at the peak load of 479 μN, fitted by Eq. 3; and (c) showing and pop-in events (suggested by the legend) at the peak load of 1 mN.
References [1] M.
A Vol. 479 (2008), p. 37 [5] T Sumitomo, H Huang, L Zhou and J Shimizu: Int.
Online since: July 2011
Authors: Hsiung Cheng Lin, Liang Yih Liu, Kuo Hung Pai
Introduction
The microprocessor 8051 has been still widely applied in industry since its announcement in 1980 [1-13].
References [1] Shi Yuanyuan, Liu Jia, Liu Runsheng, “Single-chip speech recognition system based on 8051 microcontroller core”, IEEE Transactions on Consumer Electronics, Vol. 47, Issue 1 (2001), pp.149-153
[11] Lin, H.C., ”Remote power system harmonics measurement and monitor via the Internet” IEEE Conference on Cybernetics and Intelligent Systems, Vol.1 (2004), pp. 474-479
[19] Zhao Long, Wang Hao, “A Design of a Random Roll Call System Based on VB”, Second International Conference on Information and Computing Science (ICIC '09), Vol. 1 (2009), pp. 316-318
[20] Sanudin, R., Mun, Y.T., Zaki, W.S.W., Wahab, M.H.A., “Wireless appliance control system”, Innovative Technologies in Intelligent Systems and Industrial Applications (2009), pp. 476-479
References [1] Shi Yuanyuan, Liu Jia, Liu Runsheng, “Single-chip speech recognition system based on 8051 microcontroller core”, IEEE Transactions on Consumer Electronics, Vol. 47, Issue 1 (2001), pp.149-153
[11] Lin, H.C., ”Remote power system harmonics measurement and monitor via the Internet” IEEE Conference on Cybernetics and Intelligent Systems, Vol.1 (2004), pp. 474-479
[19] Zhao Long, Wang Hao, “A Design of a Random Roll Call System Based on VB”, Second International Conference on Information and Computing Science (ICIC '09), Vol. 1 (2009), pp. 316-318
[20] Sanudin, R., Mun, Y.T., Zaki, W.S.W., Wahab, M.H.A., “Wireless appliance control system”, Innovative Technologies in Intelligent Systems and Industrial Applications (2009), pp. 476-479
Online since: June 2010
Authors: Shan Wu Yang, Xin Lai He, Rui Zhang, Chao Sun
Table 1 Compositions of experimental steels (wt%)
No.
Fig.4 shows in-situ observation of No.1 steel during isothermal holding.
The carbon and niobium content of No.1 steel is lower than that of No.2 steel and it can be seen from Fig.4 that microstructures of No.1 steel had evolved into polygonal ferrite after 600°C for 4h, which indicates that evolution of No.1 steel is far faster than that of No.2 steel.
References [1] C.J.
Forum Vol.475-479, p. 125 [5] H.B.
Fig.4 shows in-situ observation of No.1 steel during isothermal holding.
The carbon and niobium content of No.1 steel is lower than that of No.2 steel and it can be seen from Fig.4 that microstructures of No.1 steel had evolved into polygonal ferrite after 600°C for 4h, which indicates that evolution of No.1 steel is far faster than that of No.2 steel.
References [1] C.J.
Forum Vol.475-479, p. 125 [5] H.B.
Online since: September 2014
Authors: Ran Huang, Sung Ching Chen, Yu Pin Lai, Li Wei Teng, Hui Mi Hsu
Introduction
Alkali-activation of slag, fly ash and other alumino-silicate materials have been intensively investigated during the last decades; see[1–3] for comprehensive reviews.
Each specimen was denoted as shown in Table 1 by 2 characters and 1 number in a row, in which the first character A (B) represents a water-cement ratio of 0.35 (0.55), the second character A (B) represents a No. 200 (325) sieve, and the last number represents amount of replaced cement in terms of weight %, 0%, 5%, 10%, 15%, or 20%.
Table 1 Mortar mix of test specimens (unit: kg/m3) mix w/c water cement PV powder sand AA0 0.35 197 563 0 1448 AA5 0.35 197 535 28 1448 AA10 0.35 197 507 56 1448 AA15 0.35 197 479 84 1448 AA20 0.35 197 450 113 1448 AB5 0.35 197 535 28 1448 AB10 0.35 197 507 56 1448 AB15 0.35 197 479 84 1448 AB20 0.35 197 450 113 1448 BA0 0.55 278 505 0 1389 BA5 0.55 278 480 25 1389 BA10 0.55 278 455 51 1389 BA15 0.55 278 429 76 1389 BA20 0.55 278 404 101 1389 BB5 0.55 278 480 25 1389 BB10 0.55 278 455 51 1389 BB15 0.55 278 429 76 1389 BB20 0.55 278 404 101 1389 The Water Absorption The amount of water absorption is determined by the gain in weight of a dry specimen on immersion in water under specified conditions, test resulting obtained and tabulated in Tables 2-5 depending on the combination of the water-cement ratio and sieve No.
References [1] F.
Cleaner Prod. (2006), P. 1 [9] H.
Each specimen was denoted as shown in Table 1 by 2 characters and 1 number in a row, in which the first character A (B) represents a water-cement ratio of 0.35 (0.55), the second character A (B) represents a No. 200 (325) sieve, and the last number represents amount of replaced cement in terms of weight %, 0%, 5%, 10%, 15%, or 20%.
Table 1 Mortar mix of test specimens (unit: kg/m3) mix w/c water cement PV powder sand AA0 0.35 197 563 0 1448 AA5 0.35 197 535 28 1448 AA10 0.35 197 507 56 1448 AA15 0.35 197 479 84 1448 AA20 0.35 197 450 113 1448 AB5 0.35 197 535 28 1448 AB10 0.35 197 507 56 1448 AB15 0.35 197 479 84 1448 AB20 0.35 197 450 113 1448 BA0 0.55 278 505 0 1389 BA5 0.55 278 480 25 1389 BA10 0.55 278 455 51 1389 BA15 0.55 278 429 76 1389 BA20 0.55 278 404 101 1389 BB5 0.55 278 480 25 1389 BB10 0.55 278 455 51 1389 BB15 0.55 278 429 76 1389 BB20 0.55 278 404 101 1389 The Water Absorption The amount of water absorption is determined by the gain in weight of a dry specimen on immersion in water under specified conditions, test resulting obtained and tabulated in Tables 2-5 depending on the combination of the water-cement ratio and sieve No.
References [1] F.
Cleaner Prod. (2006), P. 1 [9] H.
Online since: May 2011
Authors: Rong Mei Zhang, Yu Xiu Zhao
FeS-1, VS-1 or CuS-1 precursors are loaded and highly dispersed on the surface of mesoporous materials SBA-15, MCM-41 or SiO2 by impregnating method.
(2)1.0g support (viz SBA-15, MCM-41 and SiO2) was immersed in 20ml of zeolite FeS-1(or CuS-1 or VS-1) precursor solution obtained in step one, respectively.
Fig.1.
References [1] S.
Kawi, Microporous and Mesoporous Materials 110 (2008) 472–479 [7] A.
(2)1.0g support (viz SBA-15, MCM-41 and SiO2) was immersed in 20ml of zeolite FeS-1(or CuS-1 or VS-1) precursor solution obtained in step one, respectively.
Fig.1.
References [1] S.
Kawi, Microporous and Mesoporous Materials 110 (2008) 472–479 [7] A.