M&M2015
|
|
- しょうり はやしもと
- 5 years ago
- Views:
Transcription
1 M&M2015 MATERIALS AND MECHANICS CONFERENCE PROGRAM November 21~23, 2015 Keio University & Tokyo Tech.
2 M&M2015
3
4
5
6
7
8
9
10
11 9
12
13
14
15
16
17
18 MMR PS 12:0013:00 PS Time-domain reflectometry Microstrip line PS PS PS PS PS VaRTM PS PS PS PS PS PS PS Fe-Cr-Ni PS
19 PS DIC V&V PS PS PS PS PS :0014:00 PS G-CNT PS CFRP PS CFRP JAXA PS PS PS efwing CFRP PS SCC PS PS PS
20 PS CFRP PS PS PS ~ J ~ PS Anisotropic nano plastic deformation introduced by nanogrooving process in Ti-40 at.% Al single crystals Wei Daixiu Koizumi Yuichiro Chiba Akihiko Wada TakeshiUeno Takayuki Yoshino Masahiko PS PS PS IF PS PS GS01 9:3010:30 [ 1] GS LBB JAEA MFBR GS GS GS
21 10:4011: [ 2] GS GS GS GS :0015: [ 3] GS GS GS GS :1015:55 [ 4] GS GS SUS304 GS GS02 9:3010:30 [ 1]
22 GS SCM435 GS SUS630 GS GS A5083P-O 10:4011: [ 2] GS GS GS Ni Alloy246 IHI GS TWIP Mn-C 14:001 5:00 [ 3] GS (1) GS (2) GS (3) GS A6061 A2024 FSW 15:101 5:55 [ 4] GS FE IHI
23 GS Ti-6Al-4V GS Ti-6Al-4V 4 GS03 10:001 1:30 [ ] GS Subloading crystal plasticity with isotropic and kinematic hardening GS Tangential-inelastic strain rate GS Ni Schuh ChristopherMIT GS GS GS OS04 14:001 5:15 [ ] OS OS / OS AZ31B OS OS
24 15:251 6:25 [ ] OS ) OS ( ) OS OS OS03 10:001 1:30 [ ] OS OS OS OS SS400- OS OS OS10 14:001 5:15 [ ] OS OS OS
25 JAXA JAXA OS OS :251 6:25 [ ] OS AE CFRP OS OS OS OS13 9:0010:00 [ ] OS CFRP OS CFRP OS Cu/Sn IMCs OS :101 1:10 [ ] OS CFRP - MSYS OS
26 OS FRP OS CFRP 11:2012:00 [ ] OS :001 5:15 [] OS Ni OS Ti-6Al-4V OS OS OS :251 6:55 [] OS OS LSCF OS SUS304 OS SLS OS OS
27 OS07 9:1510:30 [] OS OS OS D OS OS :401 1:55 [] OS OS X OS PCL OS OS OS12 14:001 5:30 [] OS OS CoNiCrAlY OS OS
28 OS Ti OS II 15:401 7:10 [ ] OS IH CFRTP GCC OS OS OS OS Ti-6Al-4V/SUS304 OS OS14 9:0010:15 [ ] OS SrTiO3 OS LiNbO3 OS BiFeO3 OS OS
29 10:251 1:40 [ ] OS OS Co-Cu OS CNTs CFRP OS OS :001 5:30 [/ ] OS OS OS SUS430 OS TEM OS nm OS Adhika Damar 15:401 6:55 [/ ] OS OS OS FIB Si
30 OS MEMS Si SEM OS GLAD Si OS15 9:001 0:30 [ 1] OS OS OS Al OS OS OS :401 1:55 [ 2] OS OS OS OS
31 OS :001 5:00 [] OS :101 6:10 [ 3] OS OS OS OS V 16:201 7:20 [ 4] OS CFRP Syazana Zailani OS FRP FEM OS OS :30~12:00 13:00~17:00
32 OS09 9:3010:45 [ ] OS HVOF SUS304 OS OS OS OS X 3 10:551 1:55 [ ] OS OS XFEM OS OS :001 5:30 [] ( ) OS OS OS OS SUS316NG OS
33 OS :401 7:10 [] OS LuKaiJAEA JAEAJAEA OS OS ~ RWMC RWMC OS OS OS U OS06 10:001 1:30 [] INSS) OS OS (LRFD) OS TEPSYS TEPSYS OS JAXA OS OS INSS 14:001 5:00 [ ] JAEA)
34 OS OS INSS INSS OS Subramanian Rajivgandihi OS INSS 15:101 6:10 [ ] OS OS Bari Md Abdullah OS INSS OS CTCCTC CTC GS04 9:3010:15 [ 1] GS GS CNT CFRP I JAXA GS GFRP 10:2511: [ 2] JAXA GS
35 GS BC-C/C BC GS GS02 9:3010:30 [ 5] GS GS GS GS Zr 10:4011:40 [ 6] GS GS GS GS OS04 9:3010:30 [ ] OS OS
36 OS OS :401 1:40 [] OS OS AE b JungDoyun OS MHI MHI OS OS10 10:001 1:30 [] OS OS OS OS TRIP OS OS MHPS OS13 9:3010:30 [ ] OS CFRP II
37 OS GFRTP OS OS CFRP 10:401 1:40 [ ] OS F.C.C. F.C.C. OS CFRP OS CFRP CFRP OS R OS01HCP 9:0010:30 [] OS AZ31 OS Ti-Nb OS Mg OS Mg OS ) OS LPSO
38 10:401 1:55 [ ] OS NIMS QAL OS OS Ti-6Al-4V OS Ti-6Al-4V -Ti OS Mg-Zn-Y OS14 9:0010:30 [ /] OS OS LiNbO3 (0001)/<11-20> OS OS Si OS SEM/EBSD OS FIB ECCI EBSD 10:401 1:40 [] OS OS Ni
39 OS OS OS15 9:001 0:30 [ 5] OS OS OS CFRP I+II OS ISAS/JAXA OS CFRP OS :401 2:10 [ 6] OS OS PLA/PBAT OS OS OS :30~12:30
40 OS05 9:0010:30 [] OS OS OS OS Chonlada OS Luangarpa Chonlada OS :401 1:55 [] OS OS OS OS A1100/ OS Fe-Al OS02 9:3010:30 [ ] OS Fe-28Mn-6Si-5Cr
41 OS SMA OS SMA Ti-Ni OS :401 1:40 [ ] OS SMP OS OS SMA OS TiNi GS05 9:3011: 00 [] GS GS JAXA GS GS GS GS
42 GS02 9:3010:30 [ 6] GS CFRP GS GS S45C GS GS06 9:3010:30 [ 1] GS GS IHI IHI GS GS :401 1:40 [ 2] GS GS GS SKD61 BangJaehui GS GS07
43 9:3010:30 [ 1] GS GS Co-Cr GS GS :401 1:40 [ 2] GS GS Al GS GS OS13 9:3010:45 [] OS OS OS OS Stochastic multiscale analysis for microstructure design of porous materials YOKOTAKenihciroKeio Univ.WEN PinKeio Univ. TAKANONaokiKeio Univ. OS :551 1:55 [ ] OS
44 OS OS PSZ-Ti OS OS01HCP 9:0010:30 [ ] OS AZ31 [] OS LPSO Mg OS Effect of alloying and annealing on the activation of twin boundary Cui YujieTohoku UniversityLi YunpingIMRKoizumi YuichiroIMR Chiba AkihikoIMR OS AZ31 OS OS Mg {10-12}<10-1-1> ( ) Li JuMIT( ) 10:401 2:10 [] OS hcp CRSS MRC IPPS OS Chris SchuhMIT OS CRSS Mg LPSO FEM OS Mg
45 OS OS Mg-Y I1 9:00~12:00 9:00~12:00 OS16 9:3010:45 [ ] OS Type3 CFRP JPEC JPEC OS OS JFE JFE OS S45C OS OS11 10:551 2:25 [ OS OS OS IHIJAX
46 OS Peridynamics OS CFRP JAXA JAXA OS OS083 9:3010:45 [3 (1)] OS Al-Zn-Mg JASRI OS D JASR OS CT FEA Halim Abdullah OS OS ADC12 AlA :551 1:55 [3 (2)] OS ADC1 OS OS OS CT Si
47 M&M2015OS OS01HCP OS02 OS03 OS04 OS05 OS06 OS07
48 OS08 OS09 OS10 OS11 OS12 OS13 OS14 OS15 OS16
29 (CMD2016) 2016 9 2224 FrontISTR+EasyISTR 17:2517:45 CFD JAXA, 15 F02. CAE 2016 9 23 () 9:4512:00 15:0016:45 1 (221) F02-1 9:4510:15 IoT CAE CAE / F
29 (CMD2016) 2016 9 22 24 2016 7 11 http://www.jsme.or.jp/conference/cmdconf16/ doc/program.html 2016 9 22 () 13:0014:00 IB 2016 9 23 () 13:0014:00 IB F01. Front- ISTR 2016 9 22 () 14:1517:45 2 (222) 14:1514:20
More informationFe-0.3massN-1MM : Mn,Mo 4 Mn kinetics Mo 6 γ JFE 7 AlN γ
980 8577 1000 100514 10 111558 1215 1315912 10 14251317 10 1550 1605 161050 18 10 1710 170540 19 5 1750 1800 830 8352023 10 9452427 10 10552832 1210 1310 1315 55 5 33 10 1425 20 3436 5 15303739 5 1640
More informationuntitled
NPO 2006( ) 11 14 ( ) (2006/12/3) 1 50% % - - (CO+H2) ( ) 6 44 1) --- 2) ( CO H2 ) 2 3 3 90 3 3 2 3 2004 ( ) 1 1 4 1 20% 5 ( ) ( ) 2 6 MAWERA ) MAWERA ( ) ( ) 7 6MW -- 175kW 8 ( ) 900 10 2 2 2 9 -- - 10
More information(1) 20 (2) (3) (4) FAX () () A OS
2010 6 21 ()22 () 12014 http://www.waseda.jp/jp/campus/waseda.html 3b 7 10 1 10 JR 2 02 3 1 10000 2000 17000 3000 4000 6000 2010 6 21 () 18:30 (1) 20 (2) (3) (4) 160-0016 35 5 035360-3502FAX035360-3508
More informationFC EV FC EV R&D JFE JFE JFE 2
CS CS METI NEDO NEDO NEDO NEDO NEDO NEDO NEDO NEDO NEDO 1 FC EV FC EV R&D JFE JFE JFE 2 MB MB 2 Gr NEDO NEDO NEDO NEDO NEDO NEDO 27 A-1 A-2 (1) 3 (2) B-1 D-1 (1) (2) (3) B-2 (1) 70MPa (2) (3) D-2 (1) -
More informationS1. G101 ( ( ))09:30 11:20 S ( ) ( ) S PDE ( ) ( ) S ( ) ( ) S ( ) ( ) S O/F ( ) ( ) S ( ) ( ) ( ( )) (10 ) S1-1-0
1 S1. G101 ( ( ))09:30 11:20 S1-1-01 ( ) ( ) S1-1-02 PDE ( ) ( ) S1-1-03 ( ) ( ) S1-1-04 ( ) ( ) S1-1-05 O/F ( ) ( ) S1-1-06 ( ) ( ) ( ( )) (10 ) S1-1-07 ( ) ( ) S1-1-08 ( ) ( ) S1-1-09 ( ) ( ) S1-1-10
More informationS1-1: S2-1: S3-1: S4-1: S5-1: S6-1: S7-1: S2-2: 2 S2-2: 2 S3-2: 2 S4-2: 2 S6-2: 2 S7-2: S8-1: S9-1: S10-1: 2
44 : : 27 03 07 ( ) S1-1: S2-1: S3-1: S4-1: S5-1: S6-1: S7-1: S2-2: 2 S2-2: 2 S3-2: 2 S4-2: 2 S6-2: 2 S7-2: S8-1: S9-1: S10-1: 2 3 S1. G101 ( ( ))09:30 11:20 S1-1-01 ( ) ( ) S1-1-02 PDE ( ) ( ) S1-1-03
More informationIS(A3) 核データ表 ( 内部転換 オージェ電子 ) No.e1 By IsoShieldJP 番号 核種核種半減期エネルギー放出割合核種番号通番数値単位 (kev) (%) 核崩壊型 娘核種 MG H β-/ce K A
IS(A3)- 284 - No.e1 核種核種半減期エネルギー放出割合核種通番数値単位 (kev) (%) 1 1 1 MG-28 20.915 H 29.08 27.0000 β-/ce K Al-28 2 1 2 MG-28 20.915 H 30.64 2.6000 β-/ce L Al-28 3 2 1 SC-44M 58.6 H 270.84 0.0828 EC/CE CA-44 4 2
More information[Ver. 0.2] 1 2 3 4 5 6 7 1 1.1 1.2 1.3 1.4 1.5 1 1.1 1 1.2 1. (elasticity) 2. (plasticity) 3. (strength) 4. 5. (toughness) 6. 1 1.2 1. (elasticity) } 1 1.2 2. (plasticity), 1 1.2 3. (strength) a < b F
More informationI A-7 / 27 A B A B I A-8 31 A A I A-9 35 A A ( ) I A-10 39 I A-11 F8BT 43 I A-12 GaAs 47 I A-13 GaAs InGaAsN/GaAs II 51 A B A B I A-14 ZnSe/BeTe II 55
12 14 ( ) 11:10 12:40 10 L TL-1 Maxwell 1 13:50 14:50 10 L OL-2 7 I A 16:00 18:00 10 S10A I A-3 CsI:Na 2 Na 11 I A-4 PbCl 2 Br Br 15 A A I A-5 19 A A,B A,B C A B C I A-6 PVA 23 A ( ) A,B A,B A,B A,B B,C
More information000..\..
Bull. Nagoya Univ. Museum No. 20, 79 91, 2004 Quantitative chemical analysis of rocks with X-ray fluorescence analyzer XRF-1800 NAKAZAKI Mineko TSUBOI Motohiro KANAGAWA Kazuyo KATO Takenori SUZUKI Kazuhiro
More information19 σ = P/A o σ B Maximum tensile strength σ % 0.2% proof stress σ EL Elastic limit Work hardening coefficient failure necking σ PL Proportional
19 σ = P/A o σ B Maximum tensile strength σ 0. 0.% 0.% proof stress σ EL Elastic limit Work hardening coefficient failure necking σ PL Proportional limit ε p = 0.% ε e = σ 0. /E plastic strain ε = ε e
More informationリサイクルデータブック2016
AppendixEU SDGs2159EU 21512UNEPOECD2165G7 2165 213 Appendix 1 EU 2 EU 3 215 i CONTENTS i 1 213 1 213 2 1 4 2 2 6 3 3 6 4 213 7 4 5 9 6 213 9 5 7 1 8 213 1 9 11 1 213 11 11 213 11 6 6.1 12 213 14 6.2 13
More informationuntitled
- 37 - - 3 - (a) (b) 1) 15-1 1) LIQCAOka 199Oka 1999 ),3) ) -1-39 - 1) a) b) i) 1) 1 FEM Zhang ) 1 1) - 35 - FEM 9 1 3 ii) () 1 Dr=9% Dr=35% Tatsuoka 19Fukushima and Tatsuoka19 5),) Dr=35% Dr=35% Dr=3%1kPa
More information42 3 u = (37) MeV/c 2 (3.4) [1] u amu m p m n [1] m H [2] m p = (4) MeV/c 2 = (13) u m n = (4) MeV/c 2 =
3 3.1 3.1.1 kg m s J = kg m 2 s 2 MeV MeV [1] 1MeV=1 6 ev = 1.62 176 462 (63) 1 13 J (3.1) [1] 1MeV/c 2 =1.782 661 731 (7) 1 3 kg (3.2) c =1 MeV (atomic mass unit) 12 C u = 1 12 M(12 C) (3.3) 41 42 3 u
More information...J......1803.QX
5 7 9 11 13 15 17 19 21 23 45-1111 48-2314 1 I II 100,000 80,000 60,000 40,000 20,000 0 272,437 80,348 82,207 81,393 82,293 83,696 84,028 82,232 248,983 80,411 4,615 4,757 248,434 248,688 76,708 6,299
More informationuntitled
16 Ver.02.2 HP 2 30 Ver.02.1 Ver.02.2 : C206 C222 H206 6 23 A OS8 Na- 9:30 11:50 A101 JAEA A102 - A103 - JAEA A104 - JAEA A105 - JAEA NESI JAEA A106,,, JAEA A107 - JAEA OS8 14:20 16:20 C OS6 9:30 11:50
More informationJAJP
Agilent 7500ce ORS ICP-MS Glenn Woods Agilent Technologies Ltd. 5500 Lakeside, Cheadle Royal Business Park Stockport UK Agilent 7500ce ICP-MS 5 7500ce (ORS) 1 ORS 7500ce ORS ICP-MS ( ) 7500 ICP-MS (27.12
More informationuntitled
4. NEDO NEDO 20 23-26 Grain Boundary Grain Interior.2.1.1.1-1 mm μm nm Mg Photodiode Counts 450 500 550 600 Energy Loss (ev).2 (AZ91+ 300-1 300 0.1%.1.1-1 -2 -3 (1) (2) (3) 18 19 AZ61 AZ80 ZK60 ACM522.2.1-1.2.1-1.2.1-2.2.1-2
More information名称未設定-2
Contents 1 2 3 4 5 6 7 8 9 1 11 12 13 14 15 16 17 18 19 2 21 22 i 23 24 25 26 27 28 29 3 31 32 33 34 35 36 37 38 39 4 41 42 43 44 45 46 47 48 49 5 51 52 53 54 55 56 57 ii 58 59 6 61 62 63 64 65 66 67 68
More information03J_sources.key
Radiation Detection & Measurement (1) (2) (3) (4)1 MeV ( ) 10 9 m 10 7 m 10 10 m < 10 18 m X 10 15 m 10 15 m ......... (isotope)...... (isotone)......... (isobar) 1 1 1 0 1 2 1 2 3 99.985% 0.015% ~0% E
More information特-7.indd
Mechanical Properties and Weldability of Turbine Impeller Materials for High Temperature Exhaust Gas Turbocharger 1 000 1 050 246 IN100 The increase in environmental awareness in recent years has led to
More informationX線分析の進歩36 別刷
X X X-Ray Fluorescence Analysis on Environmental Standard Reference Materials with a Dry Battery X-Ray Generator Hideshi ISHII, Hiroya MIYAUCHI, Tadashi HIOKI and Jun KAWAI Copyright The Discussion Group
More informationH1-H4
42 S H He Li H He Li Be B C N O F Ne Be B C N O F Ne H He Li Be B H H e L i Na Mg Al Si S Cl Ar Na Mg Al Si S Cl Ar C N O F Ne Na Be B C N O F Ne Na K Sc T i V C r K Sc Ti V Cr M n F e C o N i Mn Fe Mg
More informationリサイクルデータブック2017
AppendixEU SDGs2159EU 21512UNEPOECD2165G7 2165 214 Appendix 1 EU 2 EU EU( EU EU EU EU 3 217 i CONTENTS i 1 214 1 214 2 1 4 2 2 6 3 3 6 4 214 7 4 5 9 6 214 9 5 7 1 8 214 1 9 11 1 214 11 11 214 11 6 6.1
More information2 1 7 - TALK ABOUT 21 μ TALK ABOUT 21 Ag As Se 2. 2. 2. Ag As Se 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 Sb Ga Te 2. Sb 2. Ga 2. Te 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4
More information,
23 1948 23 10 20 23 11 6 10 10 214 11 11 4 6,000 6,000 215 24 1949 18 69 1 2 24 31 34 24 10 11 12 14 15 2 2226 83, 24 1949 25 195017 26 1951 10 12 28 1953 22 25 1 20 31 10 15 10 1631 10 11 12 13 14 13
More information卒業論文
Cu-Ru ...7 1.1....7 1.2....7 1.3....8...9 2.1....9 2.1.1....9 2.1.2....10 2.2.... 11 2.2.1.... 11 2.2.2. ()...12 2.2.3. ()...13 2.2....15...18 3.1. Cu z ...18 3.1.1....18 3.1.2....19 3.1.3....29 3.2.
More information<8DDE8EBF955C2E786C73>
電解 Ni NiCr リン脱酸素銅 Cu-P C-1220 鋳物 1 種 CAC201 YBsC1 C-2 フェライト球状黒鉛鋳鉄 G-5504 FCD-LT C-1221 鋳物 2 種 CAC202 YBsC2 C-3 FCMW C-2100 鋳物 3 種 CAC203 YBsC3 スズ入り -Sn-P C-4250 可鍛鋳鉄 G-5705 FCMB C-2200 高力鋳物 1 種 -Mn-Fe-Al
More informationB 1 2B 1 3B 1 4A CoTiO 3 NiTiO 3 LiAlO A 1 6A 1 7A 1 8A HIP Ni-Cr-Mo-B Al Fe TiNi A319 HAADF-STEM Naresuan Univ. Ampron
11 27 11 28 11 299 00 12 30 9 00 12 2 Journal of the Japan Society of Powder and Powder Metallurgy Vol. 60 No. 10 2 112 2 11 27 29 2 2 1-1 Tel 02-683-7711 9 00 11 40 18 30 9 30 12 00 13 00 17 10 13 00
More informationuntitled
(a) (b) (c) (d) (e) (f) (g) (f) (a), (b) 1 He Gleiter 1) 5-25 nm 1/2 Hall-Petch 10 nm Hall-Petch 2) 3) 4) 2 mm 5000% 5) 1(e) 20 µm Pd, Zr 1(f) Fe 6) 10 nm 2 8) Al-- 1,500 MPa 9) 2 Fe 73.5 Si 13.5 B 9 Nb
More informationuntitled
2008-11/13 12 4 12 5 401 501 702 401 501 A-1 9:00-10:30 B-1 9:15-10:30 C-1 9:00-10:30 A-5 9:00-10:30 B-5 9:15-10:30 A A-2 10:45-12:15 B-2 10:45-12:15 C-2 10:45-12:15 A-6 10:45-12:15 B-6 10:45-12:15 A B
More information1/120 別表第 1(6 8 及び10 関係 ) 放射性物質の種類が明らかで かつ 一種類である場合の放射線業務従事者の呼吸する空気中の放射性物質の濃度限度等 添付 第一欄第二欄第三欄第四欄第五欄第六欄 放射性物質の種類 吸入摂取した 経口摂取した 放射線業 周辺監視 周辺監視 場合の実効線 場合
1/120 別表第 1(6 8 及び10 関係 ) 放射性物質の種類が明らかで かつ 一種類である場合の放射線業務従事者の呼吸する空気中の放射性物質の濃度限度等 添付 第一欄第二欄第三欄第四欄第五欄第六欄 放射性物質の種類 吸入摂取した 経口摂取した 放射線業 周辺監視 周辺監視 場合の実効線 場合の実効線 務従事者 区域外の 区域外の 量係数 量係数 の呼吸す 空気中の 水中の濃 る空気中 濃度限度
More information1 (1) (2)
1 2 (1) (2) (3) 3-78 - 1 (1) (2) - 79 - i) ii) iii) (3) (4) (5) (6) - 80 - (7) (8) (9) (10) 2 (1) (2) (3) (4) i) - 81 - ii) (a) (b) 3 (1) (2) - 82 - - 83 - - 84 - - 85 - - 86 - (1) (2) (3) (4) (5) (6)
More information- 2 -
- 2 - - 3 - (1) (2) (3) (1) - 4 - ~ - 5 - (2) - 6 - (1) (1) - 7 - - 8 - (i) (ii) (iii) (ii) (iii) (ii) 10 - 9 - (3) - 10 - (3) - 11 - - 12 - (1) - 13 - - 14 - (2) - 15 - - 16 - (3) - 17 - - 18 - (4) -
More information2 1980 8 4 4 4 4 4 3 4 2 4 4 2 4 6 0 0 6 4 2 4 1 2 2 1 4 4 4 2 3 3 3 4 3 4 4 4 4 2 5 5 2 4 4 4 0 3 3 0 9 10 10 9 1 1
1 1979 6 24 3 4 4 4 4 3 4 4 2 3 4 4 6 0 0 6 2 4 4 4 3 0 0 3 3 3 4 3 2 4 3? 4 3 4 3 4 4 4 4 3 3 4 4 4 4 2 1 1 2 15 4 4 15 0 1 2 1980 8 4 4 4 4 4 3 4 2 4 4 2 4 6 0 0 6 4 2 4 1 2 2 1 4 4 4 2 3 3 3 4 3 4 4
More information20 15 14.6 15.3 14.9 15.7 16.0 15.7 13.4 14.5 13.7 14.2 10 10 13 16 19 22 1 70,000 60,000 50,000 40,000 30,000 20,000 10,000 0 2,500 59,862 56,384 2,000 42,662 44,211 40,639 37,323 1,500 33,408 34,472
More informationI? 3 1 3 1.1?................................. 3 1.2?............................... 3 1.3!................................... 3 2 4 2.1........................................ 4 2.2.......................................
More informationリサイクルデータブック2015
EUEconomy-wide Material Flow AccountsEW-MFA Domestic Extraction UsedDEU Direct Material InputDMI Domestic Material ConsumptionDMC A resource-effi cient Europe Flagship initiative under the Europe 22 Strategy
More informationPALL NEWS vol.126 November 2017
PALL NEWS November 2017 Vol.126 PALL NEWS vol.126 November 2017 NEW =2000 9660 41.4 MPa 24 MPa NFPA T2.06.01 R2-2001 CAT C/90/* (1x10 6 0-28 MPa 1x10 6 29 120 C 60 C 450 Pa 340 Pa 1 MPa JIS B 8356-3/ISO
More informationRAA-05(201604)MRA対応製品ver6
M R A 対 応 製 品 ISO/IEC 17025 ISO/IEC 17025は 試験所及び校正機関が特定の試験又は 校正を実施する能力があるものとして認定を 受けようとする場合の一般要求事項を規定した国際規格 国際相互承認 MRA Mutual Recognition Arrangement 相互承認協定 とは 試験 検査を実施する試験所 検査機関を認定する国際組織として ILAC 国際試験所認定協力機構
More information元素分析
: このマークが付してある著作物は 第三者が有する著作物ですので 同著作物の再使用 同著作物の二次的著作物の創作等については 著作権者より直接使用許諾を得る必要があります (PET) 1 18 1 18 H 2 13 14 15 16 17 He 1 2 Li Be B C N O F Ne 3 4 5 6 7 8 9 10 Na Mg 3 4 5 6 7 8 9 10 11 12 Al Si P
More informationCu Al Mn Mg Si 473K Mg 6%Al Mn GSAM / TRI-ARROWS ALUMINUM UACJ (Thailand) Co.,Ltd.
68 102018 10 Al Mg Si 537 Ti 6Al 4VLFW 544 Mg Al Ca 552 Al Mg Si 555 Materials Transactions Vol. 59, No. 10 Effect of Dissolved Impurities on the Rate of Recovery and Recrystallization in an A1050 aluminum
More informationhv (%) (nm) 2
HOLLOW CATHODE LAMPS hv 1 2 1 8 5 3 4 6 (%) 6 4 7 8 2 16 2 24 28 32 36 4 44 (nm) 2 1 328.7 346.5 Ag 47-47NB(AG) 338.28 1 2 Re 75-75NB(RE) 346.47 2 25 39.27 343.49 Al 13-13NB(AL) 396.15 1 2 Rh 45-45NB(RH)
More information36 th IChO : - 3 ( ) , G O O D L U C K final 1
36 th ICh - - 5 - - : - 3 ( ) - 169 - -, - - - - - - - G D L U C K final 1 1 1.01 2 e 4.00 3 Li 6.94 4 Be 9.01 5 B 10.81 6 C 12.01 7 N 14.01 8 16.00 9 F 19.00 10 Ne 20.18 11 Na 22.99 12 Mg 24.31 Periodic
More informationYuzo Nakamura, Kagoshima Univ., Dept Mech Engr. perfect crystal imperfect crystal point defect vacancy self-interstitial atom substitutional impurity
perfect crystal imperfect crystal point defect vacancy self-interstitial atom substitutional impurity atom interstitial impurity atom line defect dislocation planar defect surface grain boundary interface
More informationA(6, 13) B(1, 1) 65 y C 2 A(2, 1) B( 3, 2) C 66 x + 2y 1 = 0 2 A(1, 1) B(3, 0) P 67 3 A(3, 3) B(1, 2) C(4, 0) (1) ABC G (2) 3 A B C P 6
1 1 1.1 64 A6, 1) B1, 1) 65 C A, 1) B, ) C 66 + 1 = 0 A1, 1) B, 0) P 67 A, ) B1, ) C4, 0) 1) ABC G ) A B C P 64 A 1, 1) B, ) AB AB = 1) + 1) A 1, 1) 1 B, ) 1 65 66 65 C0, k) 66 1 p, p) 1 1 A B AB A 67
More informationMicrosoft Word - 00”ŒŁ\”ƒf.doc
1-1 1 1-2 5S 3 1-3 5 2-1 1 2-2 3 2-3 5 2-4 7 3-1 1 3-2 3 3-3 5 3-4 7 4-1 1977 1 4-2 1987 7 4-3 17 4-4 26 1-1 1 1-2 5S 3 1-3 5 1-1 (1) (2) (3) 1. -1-1 1:15 1:10 2.. owf / 1.0 40 1.0 3.0 60 3.0 80 kg 0.25
More information1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e
No. 1 1 1 H Li Be Na M g B A l C S i N P O S F He N Cl A e K Ca S c T i V C Mn Fe Co Ni Cu Zn Ga Ge As Se B K Rb S Y Z Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb T e I X e Cs Ba F Ra Hf Ta W Re Os I Rf Db Sg Bh
More informationI
I II 1 2 3 4 5 6 7 8 9 10 11 Rp.1) 50mg 3 3 14 Rp.2) 2.5mg 2 14 Rp.1) 2.5mg 3 2 2:1 14 Rp.) 15g 1 3 28 Rp.2) 50 600mg 1 2 28 12 Rp.1) CR 20mg 1 1 1 14 Rp.2) R 200 1 2 14 Rp.3) 3 1 3 14 Rp.1) 2.5mg 0.4
More information01_辻
20 EBSD 2008.11.28 scanning electron microscope: SEM EBSD electron back scattering diffraction [1-4] 10 EBSD anisotropy polycrystal orientation texture EBSD EBSD EBSD EBSD Table 1 EBSD Table 1-10 mmφ
More information13thprogram.doc
11201 11202 11203 11204 11205 CPG 11206 11207 11208 11301 11302 11303 11304 11401 11402 11403 11404-11405 11406 11407 11408 11409 LES 11410 11411 11501 SI-F 11502 CFRP 11503 11504 11601 11602 RFID 11603
More informationDoc. No. MA035A-RC-D02-1 Rev Hitz B52 1
Doc. No. MA035A-RC-D02-1 Rev.0 2018 12 26 Hitz B52 1 50 2018/11/2 1 6 Hitz-B52 Doc.No.MA035A-RC-D01 Rev.0 ( 30 11 2 6 ) P.4 2. 2 b. 60 Co 1. SUS304 C Si Cr Mn P S Fe Co Ni Mo 100 32 Si 53 Mn 54 Mn 55 Fe
More informationuntitled
by http://enjoygarden.jp AS-900 6 200200920,522,500 AS-800 6 200200920,522,500 AS-700 5 20002000920,47,500 AS-600 3 200600890,207,500 AS-500 4 800800845,029,000 AZ-00 3 9090920,47,500 AZ-200 7 9090920,47,500
More informationuntitled
Life Cycle Assessment (1998719993) (1998419991) (199913) 14 29 29 30 30 34 37 44 60 61 62 62 67 70 82 84 85 86 () ()() 1 PET 2.1.1 2.1-1 PTA 1997 72.6%2.6 97 4 2.1.2 2.1-2 1997 79.6% 2.3 2 2.1.3 PET 2.1-3
More information2_R_新技術説明会(佐々木)
% U: 6.58%, Np, Am:.5%, Pu:.% 5.8% Cs 6.5% Sr %.9%Mo 8.74% Tc.9% TODA C 8 H 7 C 8 H 7 N CH C CH N CH O C C 8 H 7 O N MIDOA C 8 H 7 DOODA NTA + HN(C 8 H 7 ) + H O DCC + SOCl + HN(C 8 H 7 ) + Cl TODA (TODA)
More information4 1 Ampère 4 2 Ampere 31
4. 2 2 Coulomb 2 2 2 ( ) electricity 2 30 4 1 Ampère 4 2 Ampere 31 NS 2 Fleming 4 3 B I r 4 1 0 1.257 10-2 Gm/A µ 0I B = 2πr 4 1 32 4 4 A A A A 4 4 10 9 1 2 12 13 14 4 1 16 4 1 CH 2 =CH 2 28.0313 28 2
More informationMP-AES ICP-QQQ Agilent 5100 ICP-OES Agilent 5100 (SVDV) ICP-OES (DSC) 1 5100 SVDV ICP-OES VistaChip II CCD Agilent 7900 ICP-MS 7700 / 10 7900 ICP-MS ICP-MS FTIR Agilent 7900 ICP-MS Agilent Cary 7000 (UMS)
More informationNewBead_no53_fix1218.indd
11 5 1 No.53 2016 January C O N T E N T S 1 2 3 1,200 3 4 NSSW SX-26NSSW YM-26 197247 1,300 21 496-0034 2-18-2 0567-28-7751 5 NSSW H-600 NSSW YM-26 NSSW YM-60C NSSW SF-1 1972 47 1,000 60 767-0033 2039-1
More informationI A-7 CNT 27 A A A A A B A,C,D A B C D ( ) I A-8 Ce:YIG 31 A A,B A B JST I A-9 Cr 2 O 3 35 I A-10 CuO 39 A B A A A B I A-11 Co BiCoO 3 43 A A,B A A A
24 12 13 ( ) I-A 9:50 9:55 9:55 10:50 12:20 13:50 TL-1 1 14:00 15:00 OL-2 7 JST CREST I-B I A 15:10 16:05 16:05 17:50 10F S10A I A-3 X 11 A B B B A B I A-4 X 15 A A I A-5 X 19 A A I A-6 X 23 A A i I A-7
More informationI A-9 45 A,B, A,B, A,B, A,B, C, A, A, A A, B, C I A A,B, A,B, B,C, A, A A, B, C ( ) I A-11 LuFe 2 O 4 53, A,, B, C,, A, B, C I A-12 I A-13 Lumin
23 12 7 ( ) I A, I B I A 10:00 10:05 10F L 10:05 11:45 10F L 12:45 14:45 10F S10A I A-1 DC AC Bloch Zener 341 21, JST CREST I A-2 (6,5) 17,,,, A, B, A, B I A-3 X 21, A,, A I A-4 25 A, A, A,B, A A, B JST
More informationI A-7 Fe β-ga 2 O 3 31 I A-8 I A-9 I A-10 I A-11 X Ce Tb A A A A A X 43 A A 47 A A B B A A B I A-12 SrI 2 :Eu 51 A B B C D A B C D I A I A
28 12 8 ( ) I A I B 10:00 10:05 10:05 11:10 11:25 12:25 13:45 15:15 TL-1 1 I A 15:30 17:30 I A-3 ZnO 15 I A-4 ZnO 19 A B B A,C A,B D A A B C D I A-5 255 I A-6 27 Ian Friel A J. Isberg B A Element Six Innovation
More informationAl-Si系粉末合金の超塑性
Superplasticity of Al-Si P/M Alloys Satoru Ishihara, Mikio Kondoh, Kazuhiko Itoh Al-17Si-4.5Cu-0.5Mg-(06)Fe-(02)Mm ( Mm : ) (i) (ii) Si(iii) Fe (iv) Mm Al-17Si-4.5Cu-0.5Mg500 10 2 s 1 520 110 1 s 1 Si
More informationContents 4 06 IP2 41 Thermo Scientific Nalgene Nalgene
Nalgene & Packaging plastic Bottles & Vials Contents 4 06 IP2 41 Thermo Scientific Nalgene 5 07 42 8 08 43 9 09 45 11 10 46 Nalgene 12 11 50 13 12 53 01 20 13 61 02 28 14 64 03 33 15 66 04 37 16 / 67 05
More informationpositron 1930 Dirac 1933 Anderson m 22Na(hl=2.6years), 58Co(hl=71days), 64Cu(hl=12hour) 68Ge(hl=288days) MeV : thermalization m psec 100
positron 1930 Dirac 1933 Anderson m 22Na(hl=2.6years), 58Co(hl=71days), 64Cu(hl=12hour) 68Ge(hl=288days) 0.5 1.5MeV : thermalization 10 100 m psec 100psec nsec E total = 2mc 2 + E e + + E e Ee+ Ee-c mc
More information14:05 14:15 1A-20 Ni-W () 14:30 1A-21 Ni-W-P () 14:45 1A-22 Pd-Ni-P () 15:00 1A-23() () () 15:15 1A-24() () 15:30 15:45 1A-26 Zn-Ni () 16:00 1A-27 -XP
------------------------------------------------------------------------------------------- 2091()3() 3 (3-4-1) http://www.kindai.ac.jp 2008626 20087 3 820() -------------------------------------------------------------------------------------------
More information2001 Mg-Zn-Y LPSO(Long Period Stacking Order) Mg,,,. LPSO ( ), Mg, Zn,Y. Mg Zn, Y fcc( ) L1 2. LPSO Mg,., Mg L1 2, Zn,Y,, Y.,, Zn, Y Mg. Zn,Y., 926, 1
Mg-LPSO 2566 2016 3 2001 Mg-Zn-Y LPSO(Long Period Stacking Order) Mg,,,. LPSO ( ), Mg, Zn,Y. Mg Zn, Y fcc( ) L1 2. LPSO Mg,., Mg L1 2, Zn,Y,, Y.,, Zn, Y Mg. Zn,Y., 926, 1 1,.,,., 1 C 8, 2 A 9.., Zn,Y,.
More information00.O.t.qxd
... a... s... 2 d... 7 f... 6... 8 a... 8 s... 9 d... 2 f... 2 g... 25... 32 a... 32... 33 a... 33 s... 33 d... 33 f... 37 ArCO Ar 2 3 Ar l 5 55 3 23 Ar2CO2.6.4 5 65 3 25 Ar2CO2.6.4 5 7 3.5 27 Ar2CO2.6.4
More information研究成果報告書
., SUS34 Inconel6, Cr,.,, Cr,. Cr Cr,., Cr,,,.,,,,.,.,,,.,,.,,., SUS34, Inconel6,. (). CoZrNb, -2 m.,., 9. Cu, 2 m. SUS34, Inconel6 SUS34, Inconel6, 5mm mmmm.,,,. (2) (HP8752A).,. - MHz, -2 dbm.,. (3)
More informationコロイド化学と界面化学
x 25 1 kg 1 kg = 1 l mmol dm -3 ----- 1000 mg CO 2 -------------------------------------250 mg Li + --------------------------------1 mg Sr 2+ -------------------- 10
More informationRN201602_cs5_0122.indd
ISSN 1349-1229 No.416 February 2016 2 SPECIAL TOPIC113 SPECIAL TOPIC 113 FACE Mykinso 113 SPECIAL TOPIC IUPAC 11320151231 RI RIBFRILAC 20039Zn30 Bi83 20047113 20054201283 113 1133 Bh107 20082009 113 113
More informationPowerPoint プレゼンテーション
2004 3 3 2 3 4 5 6 7 8 9 10 T. Ito, A. Yamamoto, et al., J. Chem. Soc., Chem. Commun., 136 (1974) J. Chem. Soc., Dalton Trans., 1783 (1974) J. Chem. Soc., Dalton Trans., 1398 (1975) 11 T.Ito, A. Yamamoto,
More informationcm H.11.3 P.13 2 3-106-
H11.3 H.11.3 P.4-105- cm H.11.3 P.13 2 3-106- 2 H.11.3 P.47 H.11.3 P.27 i vl1 vl2-107- 3 h vl l1 l2 1 2 0 ii H.11.3 P.49 2 iii i 2 vl1 vl2-108- H.11.3 P.50 ii 2 H.11.3 P.52 cm -109- H.11.3 P.44 S S H.11.3
More information渡辺(2309)_渡辺(2309)
[ 29 p. 241-247 (2011)] ** *** ** ** Development of a nickel-based filler metal containing a small amount of silicon by WATANABE Takehiko, WAKATSUKI Ken, YANAGISAWA Atsusi and SASAKI Tomohiro Authors tried
More information2 6 8 10 12 14 18 20 22 24 26 29 32 34 36 1 40 42 44 39 47 48 50 52 54 56 58 60 62 64 68 70 72 74 76 78 80 67 83 84 86 88 90 92 94 96 97 98 100 102 103 104 106 110 112 114 116 118 120 122 124 126 128 130
More informationOSG Product Catalogue VOL-2.pdf
IPG CARBIDE END MILLS & DRILLS S SERIES 2 FLUTE SHORT SMG-EDS 2 FLUTE SHORT WITH PREMIER COATING TA-SMG-EDS S S 1 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 6.0 7.0 8.0 9.0 10.0 11.0 12.0 14.0 16.0 18.0 20.0 PRe
More information中部産業レポート VOL.4『航空機関連産業』
_ CFD (JAXA) 2006 20 25,617 1 3,660 70 90 24 20 300 500 14,700 2025 32,300 120169 10,621 60 99 4,632 6.0 2006 2025 2025 2006 20 25,600 3660 120169 31 28 6099 16 7090 15 2012 11 2014 1 2 18-3 - 18-4
More information1.. 1 ll a ii. 1i. i f 1 1 a. a. i. t. 1 fi fi. t i j fj i. j ;i 1. i. aa a
1.. 1 ll a ii. 1i. i f 1 1 a. a. i. t. 1 fi fi. t i j fj i. j ;i 1. i. aa 1 111 0 0 0 0 a I E l21 1fi i L < i i;i1=t ii 111 1; ai i ti a t T ;,, l 1i.... E 11fi i 1t l l t2 1i i1 t Ea li )2 0 u 0 1f )2
More informationP13_一般構造用鋼管
http://www.nssmc.com/ 100-8071 61 Tel: 03-6867-4111 P013_05_201705f 2012, 2017 NIPPON STEEL & SUMITOMO METL CORPORTION UOE SP JIS G 3106WEL-TEN S-TEN JIS G 3444 STK STK 290 STK 400 STK 490 STK 500 STK
More information物理化学I-第12回(13).ppt
I- 12-1 11 11.1 2Mg(s) + O 2 (g) 2MgO(s) [Mg 2+ O 2 ] Zn(s) + Cu 2+ (aq) Zn 2+ (aq) + Cu(s) - 2Mg(s) 2Mg 2+ (s) + 4e +) O 2 (g) + 4e 2O 2 (s) 2Mg(s) + O 2 (g) 2MgO(s) Zn(s) Zn 2+ (aq) + 2e +) Cu 2+ (aq)
More information1 1 1 1-1 1 1-9 1-3 1-1 13-17 -3 6-4 6 3 3-1 35 3-37 3-3 38 4 4-1 39 4- Fe C TEM 41 4-3 C TEM 44 4-4 Fe TEM 46 4-5 5 4-6 5 5 51 6 5 1 1-1 1991 1,1 multiwall nanotube 1993 singlewall nanotube ( 1,) sp 7.4eV
More information258 05_ 切 削 条 件 表.indd /05/27 21:05
257 05_ 切 削 条 件 表.indd 257 13/05/27 21:05 258 05_ 切 削 条 件 表.indd 258 13/05/27 21:05 259 05_ 切 削 条 件 表.indd 259 13/05/27 21:05 260 05_ 切 削 条 件 表.indd 260 13/05/27 21:05 261 05_ 切 削 条 件 表.indd 261 13/05/27
More information4. 5.
1. 2. 20 3. 4. 5. ) N ) 6. ) 7. 8. JA 1. 30 CO2 18 2. 20 3. 4. 5. 5.1 cm 5.2 5.2.1 1 17kg 119kg11 5.2.2 60 750 2 2 5.2.3 30m 5.2.4 3 200g 6. 1 500 200 3 2 16 600 21 /10067kg/198kg10037 2025 3 4 3 3 6 102
More informationSCC IASCC 3 2
2007 1 26 1 37 55 2000 4 30 60 2002 2003 4 17 CO 2 2 SA533B BWR SUS316L 1 SCC IASCC 3 2 1991 2 PWR 1 1.3 1.5mm 1 2 1 100 10 10 3 0.6 m 3 10 4 1995 2 4 1999 L 1 2 5 6 2004 3 5 BWR 2002 4. SCC SCC SUS304
More information2 Zn Zn + MnO 2 () 2 O 2 2 H2 O + O 2 O 2 MnO 2 2 KClO 3 2 KCl + 3 O 2 O 3 or 3 O 2 2 O 3 N 2 () NH 4 NO 2 2 O + N 2 ( ) MnO HCl Mn O + CaCl(ClO
1 [1]. Zn + 2 H + Zn 2+,. K Ca Na Mg Al Zn Fe Ni Sn Pb H Cu Hg Ag Pt Au H (H + ),,. [2] ( ) ( ) CO 2, S, SO 2, NH 3 () + () () + () FeS Fe S ( ) + ( ) ( ) + ( ) 2 NH 4 Cl + Ca(OH) 2 Ca O + 2 NH 3,.,,.,,.,.
More informationuntitled
254nm UV TiO 2 20nm :Sr 5 Ta 4 O 15 3 4 KEY-1 KEY-2 (Ti,Nb,Ta) 5 KEY-1 KEY-2 6 7 NiO/ Sr 2 Ta 2 O 7 mmol h -1 g -1 20 15 10 5 H 2 O 2 H 2 O 2 0 0 2 4 6 8 10 12 NiO/Sr 2 Ta 2 O 7 The synthesis of photocatalysts
More information01 02 04 06 08 10 12 14 15 16 17 18 20 22 24 26 27 28 29 30 30 31 31 31 32 32 33 33 34 35 3638 39 40
01 02 04 06 08 10 12 14 15 16 17 18 20 22 24 26 27 28 29 30 30 31 31 31 32 32 33 33 34 35 3638 39 40 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 39 40
More information18.R.c ...z
141 PWSCC SSRT Takuyo Yamada Nobuo Totsuka Goro Chiba Koji Arioka pressurized water reactors, PWRs primary water stress corrosion cracking, PWSCC360 slow strain rate technique, SSRTconstant load test,
More information<4D F736F F D D834F DFB8E D834F >
50 A A11 9:00-10:20 OS 1 A111 PEFC * ()( )() A112 PEFC *()() A113 PEFC GDL *() A114 MPL *() A12 10:30-11:50 OS 2 A121 MPL *() () A122 PEFC *() A123 *() A124 PEFC ionomer *()() A13 13:10-14:50 OS 3 A131
More information