Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: July 2004
Authors: Daniel Guérard, Raphaël Janot
This technique allows ameliorating both the high temperature (1000-1300°C) properties
by homogeneous dispersion of fine oxides particles in the alloy and the medium temperature ones
(800-1000°C) by precipitation of an intermetallic γ phase of Ni3(Al, Ti) type.
El Hadigui, L.
El Hadigui, L.
Online since: June 2009
Authors: Fu Lei Chu, Yong Yong He, Guang Xiong Song, Yu Jiong Gu
Espuña, et. al. : Computers and Chemical Engineering, Vol.
25(2001), p. 829
[5] H.
Coghill : Knowledge-Based Systems, Vol. 18(2005), p. 225 [6] E.L.
Coghill : Knowledge-Based Systems, Vol. 18(2005), p. 225 [6] E.L.
Online since: August 2004
Authors: Tony Montesin, H. Sabar, M. Salazar, Sébastien Garruchet, G. Bertrand
The definition we used for the inelastic strains are those previously proposed by Favergeon et al. [5].
El Mouden, H.
El Mouden, H.
Online since: November 2024
Authors: Aunpada Limrueangamphon, Chonthichar Intachai, Kritsada Aopoom, Tinnathon Navanuch, Jantima Upan, Benjatham Sukkaneewat, Yutthana Wongnongwa, Narongrit Sosa, Nathapong Sukhawipat
Sample
Chemical (phr)
NR
KO
S
ZDEC
ZMBT
Wingstay®-L
ZnO
DPG
SSF
AC
1
100
2
2.5
1
1
1
3
1
0.45
0
2
100
2
2.5
1
1
1
3
1
0.45
2.5
3
100
2
2.5
1
1
1
3
1
0.45
5.0
4
100
2
2.5
1
1
1
3
1
0.45
7.5
5
100
2
2.5
1
1
1
3
1
0.45
10.0
Characterization
The determination of the cross-linked density of the compounds was obtained applying the ASTM D297-15(2019) standard using toluene according to Hiranobe et al. [14].
Sahraoui, C. el H.
Sahraoui, C. el H.
Online since: November 2005
Authors: Daltro Garcia Pinatti, Carlos Maurício Fontes Vieira, Sérgio Neves Monteiro, Monica Castoldi Borlini Gadioli, B.C. Santos, R.A. Conte
Table 3 - Results of the potentially toxic metals concentrations in the solubilization and
leaching extracts for mixture AC200 (in mg/L)
Element Solubilization
extract
(AC200)
Maximum accepted
values for solubilization
extracts [11]
Leaching
extract
(AC200)
Maximum accepted
values for leaching
extracts [10]
Ag <0.05 0.05 <0.005 5.0
Al <0.1 0.2 Not required Not required
Ba <0.01 1.0 <0.01 100.0
Cd <0.004 0.005 <0.004 0.5
Cr (total) <0.05 0.05 <0.04 5.0
Cu <0.12 1.0 Not required Not required
Fe <0.02 0.3 Not required Not required
Mn <0.002 0.1 Not required Not required
Na 1.1 200.0 Not required Not required
Pb <0.2 0.05 <0.2 5.0
Zn <0.007 5.0 Not required Not required
< ≡ Estimate concentration of the detection limit according to Boumans [14]
The results show a complete inert condition of the metals presented in the AC200
sample.
Soares, E.L.
Soares, E.L.
Online since: February 2004
Authors: F.H. Froes, Oleg R. Valiakhmetov, R.M. Galeyev, Gennady A. Salishchev
Chemical composition, in weight %, of alloy Ti-64, balance Ti
Al V Fe Si Zr C O N H
Other
6.3 4.1 0.18 0.03 0.02 0.010 0.182 0.010 0.002 0.08
The heat-treated billets were subjected to near-isothermal multi-step forging comprising of
specific combination of multiple upset/drawing operations [6].
Room temperature mechanical properties of Ti-64 sheets Sheet type Direction YS [MPa] UTS [MPa] EL [%] RD 1182 1229 8.9 Laboratory scale SMC sheet that is 0.8 mm thick TD 1190 1238 7.4 RD 1022 1159 13.0 Commercial size SMC sheet that is 0.8 mm thick TD 1022 1160 10.0 RD 1068 1185 13.0 Commercial size SMC sheet that is 2 mm thick TD 1033 1124 10.0 RD 969 1051 11.0 Conventional sheet that is 0.7 mm thick TD 1022 1071 11.4 AMS 4911H Requirements 870 920 10.0 Evaluation of superplastic performance of SMC sheet was conducted on a laboratory scale sheet, 0.8mm in thick, in temperature range of 650�800°C and strain rate range of 3×10-4 � 3×10-2/s.
Room temperature mechanical properties of Ti-64 sheets Sheet type Direction YS [MPa] UTS [MPa] EL [%] RD 1182 1229 8.9 Laboratory scale SMC sheet that is 0.8 mm thick TD 1190 1238 7.4 RD 1022 1159 13.0 Commercial size SMC sheet that is 0.8 mm thick TD 1022 1160 10.0 RD 1068 1185 13.0 Commercial size SMC sheet that is 2 mm thick TD 1033 1124 10.0 RD 969 1051 11.0 Conventional sheet that is 0.7 mm thick TD 1022 1071 11.4 AMS 4911H Requirements 870 920 10.0 Evaluation of superplastic performance of SMC sheet was conducted on a laboratory scale sheet, 0.8mm in thick, in temperature range of 650�800°C and strain rate range of 3×10-4 � 3×10-2/s.
Online since: July 2006
Authors: Miha Drofenik, V. Dondur, Boško Grbić, Nenad Radić
Kobatashi, el al.: J.
Online since: July 2015
Authors: Ilya Straumit, Marcin Barburski, Stepan Lomov
Composites Part A, Compos Part A: Appl Sci Manuf. 2014, Available at http://dx.doi.org/10.1016/j.compos
,[] Kucher NK, Danil'chuk EL.
Int J Mater Forming 2012;5(1):83–97. ,[] Cao J, Akkerman R, Boisse P, Chen J, Cheng HS, de Graaf EF, et al.
Int J Mater Forming 2012;5(1):83–97. ,[] Cao J, Akkerman R, Boisse P, Chen J, Cheng HS, de Graaf EF, et al.
Online since: December 2012
Authors: Asam M.A. Abudalazez, Azlan B. Ariffin, Zainal Arifin Ahmad, Shah Rizal Kasim
These results are agreement with those of Wang et al [7], which found the HA concentration in suspension and the strength of electric field can similarly affect the deposition rate.
El-Atwani, S.
El-Atwani, S.
Online since: August 2019
Authors: Erfan Handoko, Darminto Darminto, Deny Arista, Rosy Eko Saputro, Nurul Hidayat, Siriwat Soontaranon, Ahmad Taufiq, Sunaryono Sunaryono
Kardanzadeh et al. reported that titanium dioxide had a particle size of 14 nm produced by an electrosynthesis method.
El-Sherbiny, F.
El-Sherbiny, F.