Materials Science and Engineering Handbook [CRC Press 2001] Episode 16 pot

3, CRC Press, Boca Raton, Florida, 1975 and Engineered Materials Handbook, Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988... 3, CRC Press, Boca Raton, Florida, 1

Trang 2

323˚C B2 3 32 kHz 0.00005

Source: data compiled by J.S Park from O V Mazurin, M V Streltsina and T P

Shvaiko-Shvaikovskaya, Handbook of Glass Data, Part A and Part B, Elsevier, New York, 1983.

Trang 3

Shackelford & Alexander 1771

Trang 4

1 kHz SiO2-Na2O glass (34.3% mol Na2O) room temp 0.10324

Trang 5

Table 441

Trang 6

300 kHz SiO2-Na2O glass (39.3% mol Na2O) room temp 0.1402

Trang 7

Table 441

Trang 8

SiO2–Al2O3 glass (46.3% mol B2O3) 10 GHz 3.55

B2O3–Na2O glass (4.08% mol Na2O) 56.8 MHz room temp 3.72

Trang 9

Trang 10

SiO2–PbO glass (40% mol PbO) 32 GHz –150 4.25

SiO2–PbO glass (40% mol PbO) 32 GHz 0 4.45

SiO2–PbO glass (40% mol PbO) 32 GHz 50 5.00

B2O3–Na2O glass (10% mol Na2O) 1 kHz 73 5.00

B2O3–Na2O glass (10% mol Na2O) 1 kHz 134.5 5.05

B2O3–Na2O glass (12.5% mol Na2O) 1 kHz 73 5.45

SiO2 glass 100 Hz 400 5.5

B2O3–Na2O glass (12.5% mol Na2O) 1 kHz 134.5 5.60

Trang 11

SiO2–Na2O glass (16% mol Na2O) 4.5x108 Hz 20 6.01

SiO2–Na2O glass (22.2% mol Na2O) 4.5x108 Hz 20 6.85

SiO2–Na2O glass (19.5% mol Na2O) 300 kHz room temp 7.62

SiO2–Na2O glass (28.6% mol Na2O) 4.5x108 Hz 20 7.62

SiO2–Na2O glass (19.5% mol Na2O) 50 kHz room temp. 7.88

Table 442

(Η

Trang 12

SiO2–Na2O glass (19.5% mol Na2O) 1kHz room temp. 9.40

Trang 13

Table 442

(Η

Trang 14

Trang 15

Table 443

Trang 16

2 2 2

Trang 17

Table 443

Trang 18

2 3 2 2

56.8 MHz B2O3–Na2O glass (14.15% mol Na2O) room temp 4.94

56.8 MHz B2O3–Na2O glass (17.31% mol Na2O) room temp 5.2756.8 MHz B2O3–Na2O glass (24.77% mol Na2O) room temp 6.24

56.8 MHz B2O3–Na2O glass (31.98% mol Na2O) room temp 7.03

Trang 19

Table 443

Trang 20

Rubber phenolic—asbestos filled 5—20

Phenolics; Molded; High shock: chopped fabric or cord filled 5—60

Polyester; Thermoplastic Moldings: Glass reinforced self

Nylons; Molded, Extruded Type 6: Glass fiber (30%) reinforced 92—81

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of Materials

Science, Vol 3, CRC Press, Boca Raton, Florida, 1975 and Engineered Materials Handbook,

Vol.2, Engineering Plastics, ASM International, Metals Park, Ohio, 1988

Trang 21

Polycarbonate (40% glass fiber reinforced) 120 (tungsten electrode)

Polyester; Thermoplastic Moldings: Glass reinforced grades 130

Reinforced polyester moldings: High strength (glass fibers) 130—170

Table 444

Trang 22

Standard Epoxies: General purpose glass cloth laminate 130—180Reinforced polyester: Sheet molding compounds, general purpose 130—1806/6 Nylon; Molded, Extruded: Glass fiber Molybdenum disulfide

Silicones; Molded, Laminated: Woven glass fabric/ silicone

Silicones; Molded, Laminated: Fibrous (glass) reinforced silicones 240Silicones; Molded, Laminated: Granular (silica) reinforced

Molded,Extruded Polytrifluoro chloroethylene (PTFCE) >360Acrylics; Cast Resin Sheets, Rods: General purpose, type I No trackAcrylics; Cast Resin Sheets, Rods: General purpose, type II No track

Trang 24

List of Tables Transmission Range

Selecting Transmission Range of Optical Materials

Trang 25

Table 445 S ELECTING T RANSMISSION R ANGE OF O PTICAL

M ATERIALS (SHEET 2 OF 2)

Material & Crystal Structure

Transmission Region (µm, at 298 K)

External transmittance ≥ 10% with 2.0 mm thickness

Source: Data compiled by J.S Park from various sources

Trang 26

Phenylene oxides (Noryl): Glass fiber reinforced Opaque

Silicones; Molded, Laminated: Fibrous (glass) reinforced silicones Opaque

Silicones; Molded, Laminated: Granular (silica) reinforced silicones Opaque

Silicones; Molded, Laminated: Woven glass fabric/ silicone laminate Opaque

Source: data compiled by J.S Park from Charles T Lynch, CRC Handbook of Materials Science, Vol.

3, CRC Press, Boca Raton, Florida, 1975 and Engineered Materials Handbook, Vol.2, Engineering

Plastics, ASM International, Metals Park, Ohio, 1988

Trang 27

CRC Handbook of Materials Science & Engineering

1796

Acrylics; Cast Resin Sheets, Rods: General purpose, type I 91—92 (0.125 in.)Acrylics; Cast Resin Sheets, Rods: General purpose, type II 91—92 (0.125 in.)

Table 446 S ELECTING T RANSPARENCY OF P OLYMERS

(SHEET 3 OF 3)

Polymer

Transparency (visible light) (ASTM D791) (%)

Trang 28

SiO2 glass 1.01398 µ m 26 1.45039

B2O3 glass 5461 Å 250 1.4505

SiO2–B2O3 glass (quenched, 13.5% mol B2O3) 0.852111 µ m 23 1.4507

SiO2–B2O3 glass (annealed, 13.5% mol B2O3) 0.852111 µ m 23 1.4515

SiO2–B2O3 glass (20% mol B2O3) 5145 Å 1.4582

SiO2–Al2O3 glass (1.4% mol Al2O3) 589.262 nm 1.4595

SiO2 glass 1.01398 µ m 828 1.45960

SiO2 glass 0.54607 µ m 26 1.46028

B2O3 glass 5461 Å 200 1.4605

Source: data compiled by J.S Park from O V Mazurin, M V Streltsina and T P Shvaiko–Shvaikovskaya,

Handbook of Glass Data, Part A and Part B, Elsevier, New York, 1983.

Trang 29

B2O3 glass 5461 Å 150 1.4625

SiO2–Al2O3 glass (3.1% mol Al2O3) 589.262 nm 1.4630

B2O3 glass 5461 Å 100 1.4635

B2O3 glass 5461 Å 20 1.4650

SiO2–Al2O3 glass (3.7% mol Al2O3) 589.262 nm 1.4652–1.4667

B2O3–Na2O glass (0.01% mol Na2O) 25 1.46536

SiO2–Na2O glass (15% mol Na2O) 1.4822

SiO2 glass 0.33415 µ m 471 1.48633

SiO2 glass 0.30215 µ m 26 1.48738

SiO2 glass 3.245 µ m 471 1.4893

Table 447 S ELECTING R EFRACTIVE I NDICES OF G LASSES

(nD)

Trang 30

SiO2 glass 0.30215 µ m 828 1.49942

SiO2 glass 0.27528 µ m 471 1.50327

SiO2 glass 0.28936 µ m 828 1.50358

SiO2–Na2O glass (33.3% mol Na2O) 1.5061

SiO2 glass 0.24827 µ m 26 1.50865

SiO2 glass 0.27528 µ m 828 1.50889

Trang 31

SiO2 glass 0.2407 µ m 26 1.51361

SiO2–CaO glass (39.0% mol CaO) 1.5905

B2O3–CaO glass (35% mol CaO) 1.6021

SiO2–PbO glass (20.78% mol PbO) 1.6174

SiO2–Al2O3 glass ( 70.2 % mol Al2O3) 1.629

B2O3–CaO glass (64.1% mol CaO) 1.6525

Table 447 S ELECTING R EFRACTIVE I NDICES OF G LASSES

(nD)

Trang 32

SiO2–PbO glass (61.38% mol PbO) 2.0460–2.0512

Trang 33

1804

Polyethylenes; Molded, Extruded; Type III: Melt index 0.2—0.9 1.54Polyethylenes; Molded, Extruded; Type III: Melt Melt index 0.l—12.0 1.54Polyethylenes; Molded, Extruded; Type III: Melt index 1.5—15 1.54

Polyvinyl Chloride & Copolymers: Vinylidene chloride 1.60—1.63

Glass fiber (30%) reinforced Styrene acrylonitrile (SAN) Opaque

Table 448 S ELECTING R EFRACTIVE I NDICES OF P OLYMERS

(SHEET 2 OF 2)

Polymer

Refractive Index (ASTM D542) (n D)

Trang 35

for use in a 10% Corrosive Medium Selecting Nonferrous Metals for use in a 100% Corrosive Medium Selecting Corrosion Rates of Metals Selecting Corrosion Rates of Metals

in Corrosive Environments

Flammability

Selecting Flammability of Polymers

Trang 36

Alkyds; Molded: Rope (general purpose) 0.05—0.08

Polyester; Thermoplastic Moldings: Glass reinforced grades 0.06—0.07

Silicones; Molded, Laminated: Granular (silica) reinforced 0.08—0.1

Silicones; Molded, Laminated: Fibrous (glass) reinforced 0.1—0.15

Trang 37

1808

Acrylics; Cast Resin Sheets, Rods: General purpose, type II 0.2—0.4

Polyvinyl Chloride & Copolymers: Nonrigid—general 0.2—1.0 (ASTM D635)

Ppolyester moldings: Heat & chemical resistant (asbestos) 0.25—0.50

Table 449 S ELECTING W ATER A BSORPTION OF P OLYMERS

(SHEET 3 OF 5)

Polymer

Water Absorption in 24 hr (ASTM D570) (%)

Trang 38

Melamines; Molded: Cellulose electrical filled 0.27—0.80

Acrylics; Cast Resin Sheets, Rods: General purpose, type I 0.3—0.4

Polyvinyl Chloride & Copolymers: Nonrigid—electrical 0.40—0.75 (ASTM D635)

Phenolics; Molded; High shock: chopped fabric or cord filled 0.4—1.75

Nylons; 6/6 Nylon: Glass fiber Molybdenum disulfide filled 0.5—0.7

Reinforced polyester moldings: High strength (glass fibers) 0.5—0.75

Nylons; Molded, Extruded; 6/6 Nylon: Glass fiber reinforced 0.8—0.9

Nylons; Molded, Extruded; Type 6: Glass fiber (30%) reinforced 0.9—1.2

Trang 39

1810

Nylons; Molded, Extruded; 6/6 Nylon: General purpose extrusion 1.5

Trang 40

Ni–Resist Cast Iron

12% Cr Steel

17% Cr Steel

Stainless Steel 301

Stainless Steel 316

14% Si Iron

Source: data compiled by J.S Park from Earl R Parker, Materials Data Book for Engineers and Scientists, McGraw-Hill Book Company, New York,

1967

Định dạng
Số trang	109
Dung lượng	0,96 MB