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1 光学ガラス 2016 年版
2
3 2016
4 UV-VIS-IR i RoHS REACH ISO
5 TIE...74
6 HT&HTultra XLD Tg...79 i
7
8 ISO ISO ISO ISO i ISO CR FR SR AR1 4 PR ISO
9 mm 1 m SCHOTT N-BK7 H
10 Otto Schott ( ) com/advanced_optics/japanese/index.html
11 9 NEW Step0.5 (1.2 ) (1.3 ) (1.4 ) SCHOTT XLD ( ) (12 ) 12 2
12 10 RoHS REACH download/index.html AG
13 11 1 TIE LRQA 10 TIE TIE) available 74 optics/japanese/knowledge-center/technical-articles-andtools/tie.html
14 12 N- HT HTultra P Tg i XLD 2 TIE-42 Radiation resistant optical glasses
15 13 7 ISO9001 ISO14001 ISO50001 OHSAS18001 RoHS REACH ISO
16 TIE-29 Refractive index and dispersion 1.1: n d ν d = (n d 1)/(n F n C ) n F n C n d 3 ν d 3 nd ν d N-SF SF e n e ν e = (n e 1)/(n F' n C' ) n d/ν d n e/ν e 2
17 nd ν d : ISO nd 0.5* % ν d % % % *
18 : ISO SN LN S LH S LH
19 : : 1 nd vd nd, ν d SN S0 S1 1.2 n
20 ISO : n d, ν d, n e, ν e n g, n F', n F, n e, n d, n 632.8, n C', n C, n r, n s, n t n F n C, n d n C, n F n d, n F n e, n g n F, n F' n C', n F' n e UV-VIS-IR nm
21 hpa 1.4 TIE-26 Homogeneity of optical glass 95%
22 20 1cm ISO ISO PV 500mm 1500mm 500mm 1.5: ISO10110 ISO12123 H H H H H
23 : 500mm 1m SCHOTT N-BK7 H %
24 22 TIE-35 Transmittance of optical glass 1.6: * * * F2 Ø 290 mm, : 100 mm H4 LF5 Ø 220 mm, : 45 mm H4 LLF1 Ø 220 mm, : 45 mm H4 400 mm x 400 mm x 70 mm H4 SCHOTT N-BK7 250 mm x 250 mm x 100 mm H4 N-FK5 Ø 240 mm, : 50 mm H4 N-FK51A Ø 200 mm, : 40 mm H4 N-KZFS11 Ø 170 mm, : 40 mm H4 N-LAK22 Ø 200 mm, : 50 mm H4 SF5 150 mm x 150 mm x 60 mm H4 * mm
25 nm 2 HT HTultra 2 N-SF6HT SF57HTultra HT HTultra 10 mm 0.80 λ λ 5 10 nm 1 33/30 λ 80 = 330 nm λ 5 = 300 nm n d > λ 70 λ 5 10 nm UV UV
26 i 1.7: i i 365nm UV FK5HTi LF5HTi LLF1HTi N-BK7HTi Ø 150 mm Ø 200 mm (H5) i 365nm UV Ø 250 mm (H4)
27 g, F, F, e, d, C, C (ν d, ν e ) V i, h, g, F, F, e, d, C, C, r, t (ν d, ν e ) nm 0.5 % T 0.3 % T nm nm ~ 10 nm PV 633 nm K 1 1 nm 1 mm i, h, g, F, e, d, C, t, C +140 C mm 3 : 30 mm : 22 mm mm mm : 30 mm : 22 mm 587 nm 300 mm
28 TIE-25 Striae in optical glass mm mm ISO nm ISO ISO nm
29 : (ISO ) 2.2 TIE-28 Bubbles and inclusions in optical glass 50 mm [nm] < 30 VS1-3 VS VS 2 3 VS cm 3 mm mm 2.2 VB EVB
30 28 ISO : / VB EVB 100cm 3 mm cm
31 TIE-27 Stress in optical glass nm/cm 3 5nm 5% 2 5% ISO nm 2.3
32 mm 2.3: (Ø: d: ) [nm/cm] (SK) [nm/cm] (SSK) [nm/cm] Ø 300 mm d 60 mm Ø: mm d: mm
33 TIE-30 Chemical properties of optical glass PK FK SCHOTT N-BK ISO/WD ΔH 30 ΔH 3.1
34 32 3.1: CR1 4 CR ΔH < 0.3 % 0.3 % < 1.0 % 1.0 % < 2.0 % 2.0 % 3.2 CR 1 30 CR 1 CR mm 1
35 3 33 I ph=4.6 II ph= m : FR 0 5 FR I I I I II II h / FR 0 I 100 FR 5
36 ISO SR m 2 =0.5 mol/l ph 0.3 ph : SR 1 53 SR ph h > < 0.1 > < 0.1
37 3 35 SR 5 SR1 4 SR51 53 SR m ph h ph h 3.4 ISO ISO AR PR AR 50 = 0.01 mol/l ph= m PR 50 Na 5P 3O 10 =0.01 mol/l ph= m 3.4
38 : AR1 4 PR1 4 AR PR h > < / /.4
39 RoHS REACH IMSU EHS 2011/65/ EC RoHS Hg Cr Cd PBB PBDE N P RoHS 0.1% RoHS 13(a) RoHS RoHS II 2- DEHP BBP DBP DIBP 4 RoHS /2006/ EC REACH
40 38 RoHS REACH REACH REACH ECHA (SVHC) REACH X
41 3 39
42 TIE-31 Mechanical and thermal properties of optical glass ISO N 0.1kgf 20 HK 10HK0.1/ ISO TIE-31 Mechanical and thermal properties of optical glass ISO N-SK16 N-SK16 100
43 : ISO HG 1 30 HG 2 > HG 3 > HG 4 > HG 5 > N-SK16 N-SK dpa s) 10 4 ~10 13 dpa s HG 6 > 150 N-SK16 100
44 42 TIE-31 Mechanical and thermal properties of optical glass EW dpa s T dpa s 15 ISO T g T T K 4.4
45 4 43 α 2 a α ( 30 C; + 70 C : 2 PK FK α (+ 20 C; C : ( )
46 TIE-31 Mechanical and thermal properties of optical glass 5.2 TIE-31 Mechanical and thermal properties of optical glass 1.38 W/(m K) ( ) 0.5W/(m K) W/(m K) C 100 C c p (20 C; 100 C c p (20 C; 100 C c p 20 C J/(g K)
47 ISO9001/ISO14001 Lloyd's Register Quality Assurance Dakks ISO 17025:2005 PTB ) PTB NIST
48 / 3/
49 : - 2, 1 2, 1, 0.5 2, 1, 0.5 2, 1, 0.5 S S S - SE SE PZ dn/dt (DNDT) S0, S1 LH1, LH2 S0, S1 S0, S1 H1 H5 SK SK SK, SSK VS* / VB, EVB VB, EVB * 1 3 1
50 48
51 7 49 7
52
53
54 R a = m
55 : [mm] [mm] [mm] [mm] [mm] 1) [mm] > > > > > > > > > > )
56 : R a = µm
57 : [mm] [mm] [mm] [mm] [mm] 1) [mm] > 3 80 > > > > > > )
58 :
59 : [mm] [mm] ISO 286 [mm] [mm] [mm] [mm] [mm] [%] 6 10 > > > > h11 + 0/ 0.09 h11 + 0/ 0.11 h11 + 0/ 0.13 h11 + 0/ 0.16 h11 + 0/ 0.19 h10 + 0/ h10 + 0/ h10 + 0/ h10 + 0/ h10 + 0/ h9 + 0/ h9 + 0/ h9 + 0/ h9 + 0/ h9 + 0/ h8 + 0/ h8 + 0/ h8 + 0/ h8 + 0/ max. 130 max. 130 max. 130 max. 130 max
60
61 : [mm] < > 100 [mm] + 1.0/ / / 0 [mm]
62 : 1 2
63 : [mm] [mm] [mm] [mm] [mm] [mm] 5 18 > > > > > > > > Ø 0.45 Ø 0.4 Ø 0.3 Ø 0.3 Ø 0.3 Ø 0.3 Ø 0.3 Ø 0.3 Ø
64 62 7.6: [mm] [mm] [mm] [mm] 5 30 > > > > > :
65
66 64 7.7: * / 5 % 3 % 0.1 mm 0.05 mm 0.1 mm/100 mm 0.1 mm/100 mm 0.05 mm/100 mm 0.03 mm/100 mm + 5 mm + 2 mm + 5 mm + 2 mm < mm < mm mm mm 1000 mm 150 mm * P-LASF47
67 C P T g P TIE-40 Optical glass for precision molding / 3/3 2 K/h 2 n d 5000 K/h n d 2 K/h 2 K/h
68 66 25 K/h 25 K/h n d 2 2 P T g 2 JOGIS JOGIS
69 ( advanced_optics/japanese/download/index.html)
70 68 10 P x,y F C x y P x, y = (n x n y ) / (n F n C ) P'x,y F' C' x y P x, y = (n x n y ) / (n F n C ) P x, y a xy + b xy ν d (10.1) (10.2) (10.3) ΔP P x, y = a xy + b xy ν d + ΔP x, y (10.4) ΔP C, t = (n C n t ) / (n F n C ) ( ν d ) (10.5) ΔP C, s = (n C n s ) / (n F n C ) ( ν d ) (10.6) ΔP F, e = (n F n e ) / (n F n C ) ( ν d ) (10.7) ΔP g, F = (n g n F ) / (n F n C ) ( ν d ) (10.8) ΔP i, g = (n i n g ) / (n F n C ) ( ν d ) (10.9) K7 F2
71 10 69 n 2 (λ) 1 = B 1 λ 2 / (λ 2 C 1 ) + B 2 λ 2 / (λ 2 C 2 ) + B 3 λ 2 / (λ 2 C 3 ) (10.10) λ µm n d (h x ) = n d (h 0 ) + m nd log (h x /h 0 ) (10.11) ν d (h x ) = ν d (h 0 ) + m νd log (h x /h 0 ) (10.12) m νd = (m nd ν d (h 0 ) m nf nc ) / ((n F n C ) + 2 m nf nc log (h x /h 0 )) (10.13) h 0 h x m nd m νd m nf nc
72 70 σ νd σ nf nc ν d / (n F n C ) τ i λ = Φ eλ / Φ i λ (10.14) (10.15) τ λ P λ = τ i λ P λ (10.16) R = ((n 1)/ (n + 1)) 2 P = (1 R) 2 / (1 R 2 ) = 2n / (n 2 + 1) n λ (10.17) (10.18)
73 10 71 log τ i1 / log τ i2 = d 1 / d 2 or (d2/ d1) τ i2 = τ i1 τ i1, τ i2 d 1 d 2 (10.19) (10.20) Δs = 10 K d σ (nm) (10.21) K 10 6 mm 2 /N d cm σ N/mm 2 (= MPa)
74 72 Δn = ΔW / (2 d) = ΔW[λ] / (2 d[mm]) nm ΔW d (10.22) :
75 : [nm] Hg Hg Hg Nd t Hg s Cs r He C H C Cd He-Ne D Na [nm] d He e Hg F H F Cd g Hg h Hg i Hg Hg Hg Hg Hg Hg
76 74 11 TIE TIE available TIE URL Title TIE-25: Striae in optical glass (2.1 ) TIE-26: Homogeneity of optical glass (1.4 ) TIE-27: Stress in optical glass (2.3 ) TIE-28: Bubbles and inclusions in optical glass (2.2 ) TIE-29: Refractive index and dispersion (1.1 ) TIE-30: Chemical properties of optical glass (3 ) TIE-31: Mechanical and thermal properties of optical glass ( ) TIE-35: Transmittance of optical glass (1.5 ) TIE-40: Optical glass for precision molding (8 ) TIE-42: Radiation resistant optical glasses ( )
77
78 HT-&HTultra & ZERODUR
79 N- T g HT&HTultra
80 78 HT & HTultra XLD ν d > 90 XLD H5 H4
81 79 T g i 365nm i i i
82 80 2.5~5.2g/cm nm
83 μm 8-12 μm 0.7 μm ZnS CVD SCHOTT IRC-1 CVD
84 html CNC
85 83
86 84
87 nm IBS CNC 3D
88 86 400cm LIDT AR HR λ/10
89 87 LG-680 LG-7 LG-9 APG BLG S-7 SCHOTT N-BK7 ZERODUR
90 88 200nm
91 ショ ト ドバンスド ィ ス 89 ショット製光学フィルターガラスの内部透過率 NG N-WG GG OG RG N-WG280 N-WG295 N-WG305 N-WG320 GG395 GG400 NG11 NG5 GG420 GG435 GG455 NG4 GG475 GG495 OG515 OG530 NG3 NG9 NG1 OG550 OG570 OG590 RG610 RG630 RG645 RG665 RG695 RG715 RG9 RG780 RG830 RG850 減光フィルター ロングパスフィルター RG1000 BG36 BG36 マルチバンドパスフィルター KG KG5 KG3 KG1 KG2 ショートパスフィルター VG S8023 VG20 S8022 VG9 バンドパスフィルター BG BG3 BG25 BG7 バンドパスフィルター BG BG61 BG60 BG62 BG67 BG63 BG64 バンドパスフィルター BG S8612 BG50 BG39 BG18 BG42 BG55 BG38 BG40 バンドパスフィルター UG UG5 UG11 UG1 UG2A UV バンドパスフィルター UV 可視 IR 波長 [nm]
92 nm UV i VERIL AR AR
![650 655 660 665 670 675 680 測定値 デザインゴール 波長 nm 透過率 [%]](/docs-images/77/74865601/images/93-2.jpg "100 90 80 70 60 50 40 30 20 10 0 250 450 650 850 1050")
93 91 ル ー イ デザイン ン ルー ー ン ーンルー ー ン 測定 ル ー ー ン値 ン T < 10 5 ン 透過波 透過率 [%] 測定値 デザインゴール 波長 nm 透過率 [%] 波長 nm
94 92 2 N-FK58 N-LAK33A P-SF67
95 2016
96 94 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-FK58** N-FK5* N-FK51A* N-PK51* N-PK52A N-PSK N-PSK53A* * 0.5 ** XLD
97 95 XLD FK PK PSK P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC , / / / / / / /31
98 96 n d ν d n F n C n e ν e n F n C n r n C n F n g n h SCHOTT N-BK7 * N-BK7HT* N-BK N-K K K N-ZK * 0.5
99 97 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) /29 FC BK K ZK / / / / / /29
100 98 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-BAK N-BAK N-BAK N-BAK4HT N-SK2 * N-SK2HT N-SK N-SK N-SK N-SK * 0.5
101 99 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / /33 BAK SK / / / / / /29
102 100 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-SK
103 101 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC /30
104 102 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-KF N-BALF N-BALF N-SSK N-SSK N-SSK N-LAK N-LAK
105 103 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / /34 KF BALF SSK LAK / / /30
106 104 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-LAK9 * N-LAK N-LAK N-LAK N-LAK N-LAK N-LAK33B N-LAK * 0.5
107 105 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / / / / /28
108 106 n d ν d n F n C n e ν e n F n C n r n C n F n g n h LLF N-BAF N-BAF N-BAF N-BAF
109 107 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / /35 LLF BAF
110 108 n d ν d n F n C n e ν e n F n C n r n C n F n g n h LF N-F F F2HT F N-BASF N-BASF
111 109 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / / / /35 LF F BASF
112 110 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-LAF N-LAF LAFN N-LAF N-LAF N-LAF N-LAF
113 111 LAF P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / / / /30
114 112 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-LASF N-LASF9HT N-LASF31A LASF N-LASF N-LASF N-LASF N-LASF44* N-LASF N-LASF45HT N-LASF46A * 0.5
115 113 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC LASF /36* /36* /33* /37* /35* /32* / / / / /37* *
116 114 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-LASF46B
117 115 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC /36* *
118 116 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-SF N-SF N-SF N-SF5* N-SF N-SF6HT N-SF6HTultra N-SF N-SF N-SF N-SF * 0.5
119 117 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / /36 SF / / / / / / / /36
120 118 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-SF N-SF N-SF57HT N-SF57HTultra N-SF SF SF2* SF SF SF SF6HT * 0.5
121 119 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / /37* /37* /37* /39* / / / / / /36 *
122 120 n d ν d n F n C n e ν e n F n C n r n C n F n g n h SF SF SF56A SF SF57HTultra* * 0.5
123 121 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / /37* /36* *
124 122 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-KZFS2* N-KZFS4* N-KZFS4HT* N-KZFS5* N-KZFS8* N-KZFS11* * 0.5
125 123 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / / /30 KZFS
126 124 n d ν d n F n C n e ν e n F n C n r n C n F n g n h P-BK P-SK57Q P-SK P-SK58A P-SK P-SF P-LAK P-SF P-LAF P-LASF P-LASF
127 125 P g,f Δ P g,f n d ref.* 1 After Molding*2 SR-J WR-J n d ν d α α ( 30/+70) (20/300) T g AT ρ HK Abrasion Aa τ i (10/400) FC / / / / / / / / / /33 Low Tg /32 * 1 nd 25 K/h * 2
128 126 n d ν d n F n C n e ν e n F n C n r n C n F n g n h P-LASF P-SF N-FK51A N-FK N-PK52A N-PK N-KZFS N-KZFS
129 127 P g,f Δ P g,f n d ref.* 1 After Molding*2 SR-J WR-J n d ν d α α ( 30/+70) (20/300) T g AT ρ HK Abrasion Aa τ i (10/400) FC / /41* / / / / / /32 *1 n d 25 K/h *2 *
130 128 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-KZFS4HT N-KZFS N-KZFS N-KZFS N-LAF N-LASF46B SF SF57HTultra
131 129 P g,f Δ P g,f n d ref.* 1 After Molding*2 SR-J WR-J n d ν d α α ( 30/+70) (20/300) T g AT ρ HK Abrasion Aa τ i (10/400) FC / / / / / /36* /37* /36* *1 n d 25 K/h *2 *
132 130 n d ν d n F n C n e ν e n F n C n r n C n F n g n h FK N-BAF BAFN N-PSK N-SK N-SK KZFSN N-SF KZFS N-SF N-LAF
133 131 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / / / / / / / /34 INQ
134 132 n d ν d n F n C n e ν e n F n C n r n C n F n g n h N-LAK33A N-SF N-LAF SFL SFL SF57HT Glass type n d ν d n F n C n e ν e n F n C n r n C n F n g n h P-PK P-SF
135 133 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / /38* /37* P g,f Δ P g,f n d ref.* 1 After Molding*2 SR-J WR-J n d ν d α α ( 30/+70) (20/300) T g AT ρ HK Abrasion Aa τ i (10/400) FC / /39* *1 n d 25 K/h *2 *
136 134 n d ν d n F n C n e ν e n F n C n r n C n F n g n h BK7G K5G LF5G LF5G F2G LAK9G SF6G
137 135 P g,f Δ P g,f CR FR SR AR PR α ( 30/+70) T g T ρ HK HG τ i (10/400) FC / / / / / / /46* *
138 136 n d ν d n x, ν x, n x n y P g,f, ΔP g,f CR FR SR AR PR g F ISO 8424 ISO ISO 9689 α ( 30/+ 70) 30 C + 70 C 10 6 /K T g T C ISO dpa s ρ g/cm 3 HK (ISO 9385) HG ISO τ i (10/400) 400 nm 10 mm FC : 0.80 *: mm (JOGIS) : Aa n d JOGIS n d 25 K/h n d, ν d 5000 K/h SR-J WR-J JOGIS JOGIS AT C α (20/300) + 20 C C 10 6 /K JOGIS
139
140 138 Africa, Europe & Middle East Africa: Advanced Optics SCHOTT AG Hattenbergstrasse Mainz, Germany Phone +49 (0)6131/ Fax +49 (0)3641/ Austria: SCHOTT Austria GmbH Ignaz-Köck-Strasse Vienna, Austria Phone +43 (0) Fax +43 (0) Benelux: SCHOTT Benelux B. V. Randweg 3 A 4104 AC Culemborg, Netherlands Phone +31 (0) Fax +31 (0) [email protected] Eastern Europe: SCHOTT Division PP Denisovskiy backstreet, Moscow, Russia Phone +7 (495) Fax +7 (495) [email protected] France, Spain, Portugal: SCHOTT France SAS 6 bis rue Fournier Clichy, France Phone +33 (0)1/ Fax +33 (0)1/ [email protected] Germany: Advanced Optics SCHOTT AG Hattenbergstrasse Mainz, Germany Phone +49 (0)6131/ Fax +49 (0)3641/ [email protected]
141 139 Israel: SCHOTT Glass Israel Ltd. Israel Office Top Rasko Bld. 40 Ha`atzmaut St. P. O. Box # , Yehud, Israel Phone Fax [email protected] Scandinavia and Baltics: SCHOTT Scandinavia A/S Lyngby Port Lyngby Hovedgade 98, stuen K Kgs. Lyngby, Denmark Phone +45 (0) Fax +45 (0) [email protected] Switzerland, Italy, Liechtenstein: SCHOTT Suisse SA, Yverdon 2, Rue Galilée 1401 Yverdon-les-Bains VD, Switzerland Phone +41 (0)24/ Fax +41 (0)24/ [email protected] UK, Ireland: H. V. Skan Ltd., Solihull/GB Phone +44 (0)121/ Fax +44 (0)121/ [email protected]
142 140 Asia China: SCHOTT (Shanghai) Precision Materials & Equipment International Trading Co., Ltd., Room 1118, 1st Floor, Build. 3, No. 180 Hua Shen Rd, Pilot FTZ Shanghai, PRC (200131), China Phone +86 (0) Fax +86 (0) India: SCHOTT Glass India Pvt. Ltd. DYNASTY A Wing, 303/304 3rd FI., Andheri-Kurla Road, Andheri Mumbai, India Phone +91 (0)22/ Fax +91 (0)22/ [email protected] Japan: Japan Phone Fax [email protected]/japan Korea: SCHOTT Korea Co., Ltd. 8F. Samseong-Building, 623 Teheran-ro, Gangnam-gu, 06173, Seoul, Korea Phone Fax [email protected] Malaysia: SCHOTT Glass (Malaysia) SDN. BHD Tingkat Perusahaan 6 Zon Perindustrian Bebas Perai/Penang, Malaysia Phone +60 (0)4/ Fax +60 (0)4/ [email protected]
143 141 Singapore: SCHOTT Singapore Pte. Ltd. 8 Admiralty Street #05-01 Admirax Singapore Phone (Main line) Fax (General fax) [email protected] Australia & New Zealand SCHOTT Australia Pty. Ltd. Unit 5, 4 Skyline Place Frenchs Forest NSW 2086, Australia Phone +61 (0) Fax +61 (0) [email protected] Taiwan: SCHOTT Taiwan Ltd. 8F-3, No. 126, Sec. 4 Nanking E. Road Taipei 105, Taiwan Phone +886 (0) ext. 10 Fax +886 (0) [email protected]
144 142
145 143
146 144 Advanced Optics SCHOTT AG Hattenbergstrasse Mainz Germany Phone +49 (0)6131/ Fax +49 (0)3641/ Knecht GmbH, Ockenheim Schmidt printmedien GmbH Ginsheim-Gustavsburg Paper: 135 g MaxiSilk FSC of Igepa (laminated) 115 g MaxiSilk FSC of Igepa
147 ν d n d n d A 46B A LASF A 51* PK PSK 10 53A* 3 7* BK A 5 7 ZK7 2 LAK 7 60 SK 57Q1 1 4 BAK K * * SSK BALF KZFS2* KF 9 33B * 10 LLF BAF 33 KZFS4* LF LAF 64 BASF 2 KZFS5* 2* KZFS11* 5 F 40 5 KZFS 8* * 6 56A * SF A* FK 5* 1.45 February ν d
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CONTENTS Vol.02
CONTENTS 3 4 9 15 16 19 21 27 28 29 2Vol.02 INTRODUCTION fr N1 D Hz (1) = [ ] D Fig. 1-3 t D>3t L 1 C 1 R 1 fr N2 Hz l = [ ] (2) C 0 Fig. 1-1 a Fig. 1-4 t >4a a>t fr = 1/ { 2π L1C1} { } fa= 1/ 2π L1C0C1/
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( ) ( ) 2002.11 1 1 1.1 (Blackbody Radiation).............................. 1 1.2 (Stefan-Boltzmann s Law)................ 1 1.3 (Wien s Displacement Law)....................... 2 1.4 (Kirchhoff s Law)...........................
電気・電子・一般工業用RTVシリコーンゴム
Room Temperature Vulcanizing Rubber C O N T E N T S 3 4 6 8 10 1 1 12 13 14 15 16 18 18 19 19 20 22 23 24 25 26 27 28 29 30 31 1 1 5 2 6 3 7 4 8 3 4 5 KE-42 15 50 C 100%RH KE-489 10 5 0 1 2 3 4 50 C 60%RH
n ξ n,i, i = 1,, n S n ξ n,i n 0 R 1,.. σ 1 σ i .10.14.15 0 1 0 1 1 3.14 3.18 3.19 3.14 3.14,. ii 1 1 1.1..................................... 1 1............................... 3 1.3.........................
- 1-150 khz18 GHz CATV MATV IEC 60728-2 A B (ITE) 2 (3) 4.1 (1) 3 (CISPR) 1 (CISPR 16-1-1 2.1 2006) (CISPR 16-1-2 1 2003 12004) (CISPR 16-1-3 2.0 2004) (CISPR 16-1-4 2.0 2007) 30 MHz 1000 MHz (CISPR 16-1-5