DIALLYL PHTHALATE (DİALİL FİTALAT)
DIALLYL PHTHALATE ( DİALİL FİTALAT )
DIALLYL PHTHALATE (DİALİL FİTALAT)
CAS NUMBER: 131-17-9
EC NUMBER: 205-016-3
SYNONYMS: Diallyl phthalate; 131-17-9; C6H4-1,2-(CO2CH2CH=CH2)2; QUDWYFHPNIMBFC-UHFFFAOYSA-N; Diallyl Phthalate; DIALLYL PHTHALATE; 131-17-9; Allyl phthalate; Phthalic Acid Diallyl Ester; Dapon R; Diallylphthalate; Dapon 35; Phthalic acid, diallyl ester; o-Phthalic acid, diallyl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; NCI-C50657; UNII-F79L0UL6ST; NSC 7667; Diallylester kyseliny ftalove; CCRIS 1361; HSDB 4169; poly(diallyl phthalate); Diallylester phthalic acid; EINECS 205-016-3; Diallylester kyseliny ftalove [Czech]; BRN 1880877; Di-2-propenyl 1,2-benzenedicarboxylate; AI3-02574; phthalic acid, bis-allyl ester; 1,2-Benzenedicarboxylic acid, 1,2-di-2-propen-1-yl ester; QUDWYFHPNIMBFC-UHFFFAOYSA-N; AK-57554; DSSTox_CID_392; bis(prop-2-enyl) benzene-1,2-dicarboxylate; ST50405391; DSSTox_RID_75560; DSSTox_GSID_20392; 143318-73-4; CAS-131-17-9; DAP monomer; diallyl-o-phthalate; Phthalic acid diallyl; diallyl ortho-phthalate; PubChem21977; Diallyl phthalate, 97%; ACMC-209bl4; AC1L1R8V; F79L0UL6ST; SCHEMBL15174; o-phthalic acid diallyl ester; 4-09-00-03188 (Beilstein Handbook Reference); Diallyl ester o-phthalic acid; KSC177S6H; MLS002415725; Diallyl ester of phthalic acid; WLN: 1U2OVR BVO2U1; Diallyl Phthalate Monomer, DAP; Jsp001878; RX 1-501N (Salt/Mix); CHEMBL1329372; DTXSID7020392; CTK0H7963; NSC7667; diallyl benzene-1,2-dicarboxylate; HMS2267F17; S-30; RX 3-1-530 (Salt/Mix); NSC-7667; ZINC1688261; Tox21_201961; Tox21_300135; ANW-19286; MFCD00008646; Nonflammable decobest DA (Salt/Mix); Phthalic acid, diallyl ester (8CI); Diallyl phthalate, analytical standard; AKOS015891274; o-phthalic acid pound notdiallyl ester; RTR-004255; TRA0031533; diprop-2-enylbenzene-1,2-dicarboxylate; NCGC00091365-01; 124743-27-7; AJ-29925; AN-23053; CJ-06409; CJ-27962; I954; OR034585; OR213029; OR213030; OR213031; OR247905; SMR001253767; TR-004255; FT-0624597; P0290; ST24046467; 1,2-Benzenedicarboxylicaciddi-2-propenylester; DIPROP-2-ENYL BENZENE-1,2-DICARBOXYLATE; prop-2-enyl 2-(prop-2-enyloxycarbonyl)benzoate; 1,2-Benzenedicarboxylic acid di-2-propenyl ester; I01-8825; J-005948; InChI=1/C14H14O4/c1-3-9-17-13(15)11-7-5-6-8-12(11)14(16)18-10-4-2/h3-8H,1-2,9-10H; C14H14; 246.259; 1,2-Benzenedicarboxylic acid, di-2-propen-1-yl ester [ACD/Index Name]; 131-17-9 [RN]; Diallyl phthalate [ACD/IUPAC Name]; Diallyl-phthalat [German] [ACD/IUPAC Name]; diprop-2-en-1-yl benzene-1,2-dicarboxylate; Phtalate de diallyle [French] [ACD/IUPAC Name]; Phthalic acid, diallyl ester (8CI); [131-17-9]; 1,2-Benzenedicarboxylic acid 1,2-di-2-propen-1-yl ester; 1,2-Benzenedicarboxylic acid, 1,2-di-2-propen-1-yl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; 1,2-Benzenedicarboxylicaciddi-2-propenylester; 1,2-Bis(prop-2-en-1-yl) benzene-1,2-dicarboxylate; 124743-27-7 [RN]; 143318-73-4 [RN]; 205-016-3 [EINECS]; 4-09-00-03188 [Beilstein]; 4-09-00-03188 (Beilstein Handbook Reference) [Beilstein]; ALLYL PHTHALATE; benzene-1,2-dicarboxylic acid diallyl ester; bis(prop-2-enyl) benzene-1,2-dicarboxylate; C049098; Dap; DAP monomer; Dapon R; dapon r.; Di-2-propenyl 1,2-benzenedicarboxylate; diallyl benzene-1,2-dicarboxylate; Diallyl ester of phthalic acid; Diallyl ester o-phthalic acid; Diallyl Phthalate Monomer, DAP; Diallyl phthalic acid; Diallylester kyseliny ftalove [Czech]; Diallylester kyseliny ftalove; Diallylester kyseliny ftalove [Czech]; diallylester phthalic acid; DIALLYLPHTHALATE; diprop-2-enyl benzene-1,2-dicarboxylate; EINECS 205-016-3; InChI=1/C14H14O4/c1-3-9-17-13(15)11-7-5-6-8-12(11)14(16)18-10-4-2/h3-8H,1-2,9-10H; MFCD00008646 [MDL number]; NCGC00091365-02; Nonflammable decobest da; Nonflammable decobest DA (Salt/Mix); o-phthalic acid diallyl ester; o-Phthalic acid, diallyl ester; phthalic acid diallyl ester; Phthalic acid, bis-allyl ester; Phthalic acid, diallyl ester; POLY(DIALLYL PHTHALATE); prop-2-enyl 2-(prop-2-enyloxycarbonyl)benzoate; RX 1-501N (Salt/Mix); RX 3-1-530 (Salt/Mix); ST5405391; UNII:F79L0UL6ST; UNII-F79L0UL6ST; WLN: 1U2OVR BVO2U1; Diallyl phthalate; DAP; Dappu; daponr; dapon35; Dapon R; Dapon 35; RX 1-501N; NCI-C50657; RX 3-1-530; DAP MonoMer; InChIKeyQUDWYFHPNIMBFC-UHFFFAOYSA-N; CAS DataBase Reference131-17-9(CAS DataBase Reference); NIST Chemistry Reference1,2-Benzenedicarboxylic acid, di-2-propenyl ester(131-17-9); EPA Substance Registry System1,2-Benzenedicarboxylic acid, di-2-propenyl ester(131-17-9); Diallyl phthalate; Diallyl phthalate; DAP monomer; 1,2-Benzenedicarboxylic acid di-2-propenyl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; 1,2-bis(prop-2-en-1-yl) benzene-1,2-dicarboxylate; bis(prop-2-enyl) benzene-1,2-dicarboxylate; DAP Monomer; Diallyl Phthalate; DIALLYL PHTHALATE MONOMER; diallyl-phthalate-; Diallylphthalat; Diallylphthalate; diprop-2-enyl benzene-1,2-dicarboxylate; Diallyl Phthalate (DAP) Plastic; o-Phthalic acid, diallyl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; DAP; C6H4(CO2CH2CHCH2)2; Molecular mass: 246.3; ICSC # 0430; CAS # 131-17-9 ; RTECS # CZ4200000; UN # 3082; EC # 607-086-00-4; CAS #: 131-17-9; DAP; o-Phthalic acid, diallyl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; UN #: 3082; EINECS #: 205-016-3; Diallyl phthalate; InChI=1S/C14H14O4/c1-3-9-17-13(15)11-7-5-6-8-12(11)14(16)18-10-4-2/h3-8H,1-2,9-10H2; IUPAC Standard InChIKey: QUDWYFHPNIMBFC-UHFFFAOYSA-N; CAS Registry Number: 131-17-9; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; Phthalic acid, diallyl ester; Allyl phthalate; Dapon R; o-Phthalic acid, diallyl ester; Dapon 35; NCI-C50657; Diallylester kyseliny ftalove; Diallyl ester of phthalic acid; DAP monomer; Diallyl ester o-phthalic acid; Diallylester phthalic acid; 1,2-Benzenedicarboxylic acid, 1,2-di-2-propen-1-yl ester; NSC Phthalic Acid Diallyl Ester; 131-17-9; Diallyl phthalate (CAS 131-17-9); C=CCOC(=O)C1=CC=CC=C1C(=O)OCC=C; Diallyl Phthalate, Glass Filled; DIALLYL PHTHALATE; 1.2-Benzenedicarboxylic acid di-2-propenyl ester; Phthalate; DAP; diallyl ester o-phthalic acid; di-2-propenyl ester-1,2-benzenedicarboxylic acid; Diallyl phthalate; Compound Name:Allyl Phthalate; Compound Name (CAS):benzene-1,2-dicarboxylic acid diallyl ester; Compound Name (IUPAC):bis(prop-2-enyl) benzene-1,2-dicarboxylate; CID:8560; Molecular Formula:C14H14O4; Molecular Weight:246.25856; DIALLYL PHTHALATE; EI-B; MS; DIALLYL PHTHALATE; PHTHALIC ACID DIALLYL ESTER; 246.08921; C=CCOC(=O)c(c1)c(ccc1)C(=O)OCC=C; InChI=1S/C14H14O4/c1-3-9-17-13(15)11-7-5-6-8-12(11)14(16)18-10-4-2/h3-8H,1-2,9-10H2; Diallyl phthalate; poly(diallyl phthalate); poly(diallyl phtalate); poli(dialilftalato); Polymère du phtalate de diallyle; A polymer of diallyl phthalate; Polímero de dialil ftalato; POLY DIALLYL PHTHALATE; ALLYL PHTHALATE; 1,2-BENZENEDICARBOXYLIC ACID, DI-2-PROPENYL ESTER; DAP; DAP-M; DAPON 35; DAPON R; DAPPU; DIALLYL ESTER O-PHTHALIC ACID; DIALLYL PHTHALATE; DIALLYLESTER PHTHALIC ACID; DT 170; NCI-C50657; O-PHTHALIC ACID, DIALLYL ESTER; PHTHALIC ACID, DIALLYL ESTER; Diallyl phthalate (131-17-9); Dapon 35; Dapon R; Phthalic acid, diallyl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; MDL Number: MFCD00008646; CAS Number: 131-17-9; EINECS: 205-016-3; UN: 3082; Phthalic Acid Diallyl Ester; Diallyl phthalate; 131-17-9; 677861; Diallyl Phthalate Monomer; DAP; 1,2-Benzenedicarboxylic acid; 1,2-di-2-propen-1-yl ester; Diallyl Phthalate; Diallyl phthalate - CAS # 131-17-9; Phthalic acid, diallyl ester;Allyl phthalate;Dapon R;Diallyl phthalate;o-Phthalic acid, diallyl ester;Dapon 35;NCI-C50657;Diallylester kyseliny ftalove;Diallyl ester of phthalic acid;DAP;Daponite sheet;Diallyl ester o-phthalic acid;Diallylester phthalic acid;Nonflammable decobest DA;RX 1-501N;RX 3-1-530; Diallyl phthalate; DIALLYL PHTHALATE OEKANAL; OEKANAL; dialil; alil; fitalat; FİTALAT; FITALAT; ALIL; DIALIL; allil; ALLIL; allıl; fitalate; fıtalate; FITALATE; FİTALATE; DİALİLFİTALAT; dıalılfıtalat; DIALILFITALAT; DIALLYL PHTHALATE;131-17-9;Allyl phthalate;Phthalic Acid Diallyl Ester;Dapon R;Dapon 35;Phthalic acid, diallyl ester;Diallylphthalate;o-Phthalic acid, diallyl ester;1,2-Benzenedicarboxylic acid, di-2-propenyl ester;NCI-C50657;UNII-F79L0UL6ST;NSC 7667;Diallylester kyseliny ftalove;CCRIS 1361;HSDB 4169;Diallylester phthalic acid;EINECS 205-016-3;Diallylester kyseliny ftalove [Czech];BRN 1880877;Di-2-propenyl 1,2-benzenedicarboxylate;AI3-02574;phthalic acid, bis-allyl ester;1,2-Benzenedicarboxylic acid, 1,2-di-2-propen-1-yl ester;QUDWYFHPNIMBFC-UHFFFAOYSA-N;AK-57554;DSSTox_CID_392;bis(prop-2-enyl) benzene-1,2-dicarboxylate;ST50405391;DSSTox_RID_75560;DSSTox_GSID_20392;143318-73-4;CAS-131-17-9;DAP monomer;diallyl-o-phthalate;Phthalic acid diallyl;diallyl ortho-phthalate;poly(diallyl phthalate);Diallyl phthalate, 97%;ACMC-209bl4;AC1L1R8V;F79L0UL6ST;SCHEMBL15174;o-phthalic acid diallyl ester;4-09-00-03188 (Beilstein Handbook Reference);Diallyl ester o-phthalic acid;KSC177S6H;MLS002415725;Diallyl ester of phthalic acid;WLN: 1U2OVR BVO2U1;Diallyl Phthalate Monomer, DAP;Jsp001878;RX 1-501N (Salt/Mix);CHEMBL1329372;DTXSID7020392;CTK0H7963;NSC7667;diallyl benzene-1,2-dicarboxylate;HMS2267F17;LS-30;RX 3-1-530 (Salt/Mix);NSC-7667;ZINC1688261;Tox21_201961;Tox21_300135;ANW-19286;MFCD00008646;Nonflammable decobest DA (Salt/Mix);Phthalic acid, diallyl ester (8CI);Diallyl phthalate, analytical standard;AKOS015891274;o-phthalic acid pound notdiallyl ester;RTR-004255;TRA0031533;diprop-2-enylbenzene-1,2-dicarboxylate;NCGC00091365-01;NCGC00091365-02;NCGC00091365-03;NCGC00091365-04;NCGC00254197-01;NCGC00259510-01;124743-27-7;AJ-29925;AN-23053;CJ-06409;CJ-27962;I954;OR034585;OR213029;OR213030;OR213031;OR247905;SMR001253767;TR-004255;FT-0624597;P0290;ST24046467;1,2-Benzenedicarboxylicaciddi-2-propenylester;DIPROP-2-ENYLBENZENE-1,2-DICARBOXYLATE;prop-2-enyl 2-(prop-2-enyloxycarbonyl)benzoate;1,2-Benzenedicarboxylic acid di-2-propenyl ester;I01-8825;J-005948;InChI=1/C14H14O4/c1-3-9-17-13(15)11-7-5-6-8-12(11)14(16)18-10-4-2/h3-8H,1-2,9-10H;DAP;Dappu;daponr;dapon35;Dapon R;Dapon 35;RX 1-501N;NCI-C50657;RX 3-1-;530;DAP MonoMer;2-HYDROXYMETHYL-BENZOIC ACID; METHYL ESTER; Methyl o-toluate; ALLYL BENZYL ETHER; ETHYL PHTHALATE; MONO Diallyl phthalate; Allyl chloroformate Potassium hydrogen phthalate; Allyl phenoxyacetate Dimethyl succinate; 1,2-Benzenedicarboxylic acid; di-C9-11-branched alkyl esters; C10-rich Bis(2-methoxyethyl) phthalate; DIALLYL ISOPHTHALATE; Phthalic acid; Dibutyl phthalate; Methyl acrylate; Dimethyl phthalate; Bis(2-ethylhexyl) phthalate; BUTYL OLEATE;Carbonyl CompoundsC12 to C63Building Blocks;Diallyl-o-phthalate;DIALLYL ORTHO-PHTHALATEDI;ALLYL PHTHALATEDI-(2-PROPENY)PHTHALATE;DAP;Dapon 35;Dapon; Rdapon35; Daponite; sheetdaponr; di-2-propenyl;1,2-benzenedicarboxylate; Diallyl ester of phthalic acid;Diallyl ester o-phthalic acid;Diallylester kyseliny ftalove;Diallylester; phthalic acid;diallylesterkyselinyftalove; diallylesterkyselinyftalove(czech); diallylphthalate-1,2-benzenedicarboxylicacid,di-2-propenylester; NCI-C50657Nonflammable; decobest; DARX 1-501NRX; 3-1-530DAP(Diallyl Phthalate);DIALLYL PHTHALATE OEKANAL, 250 MGC14H14O4PhthalsurediallylesterDipropen-2-yl PhthalateC6H4COOCH2CHCH22C12 to C63Carbonyl CompoundsEstersC6H412CO2CH2CHCH22Alpha SortAnalytical StandardsAromaticsVolatiles/ SemivolatilesChemical ClassDDAlphabeticDIA - DICAnalytical StandardsEstersAnalytical StandardsPlasticizersDiallyl phthalate(DAP)DappuPhthalic acid diallylDiallyl phthalate,98%Diallyl phthalate 10g [131-17-9]DAP MonoMerester seriesDiallyl phthalate, 98% 1LTDIALLYL PHTHALATE FOR SYNTHESISThe phthalateesters of acrylicacidtwotwoDiallyl phthalate 97%Diallyl phthalate Solution, 100ppmsolvent131-17-9;PHTHALIC ACID DISODIUM SALT Phthalic anhydride Sodium bicarbonate Allyl chloride;;1,2-Benzenedicarboxylic acid, di-2-propen-1-yl ester [ACD/Index Name];131-17-9 [RN];Diallyl phthalate [ACD/IUPAC Name];Diallyl-phthalat [German] [ACD/IUPAC Name];diprop-2-en-1-yl benzene-1,2-dicarboxylate;Phtalate de diallyle [French] [ACD/IUPAC Name];Phthalic acid, diallyl ester (8CI);[131-17-9];1,2-Benzenedicarboxylic acid 1,2-di-2-propen-1-yl ester;1,2-Benzenedicarboxylic acid, 1,2-di-2-propen-1-yl ester;1,2-Benzenedicarboxylic acid, di-2-propenyl ester;1,2-Benzenedicarboxylicaciddi-2-propenylester;1,2-Bis(prop-2-en-1-yl) benzene-1,2-dicarboxylate;124743-27-7 [RN];143318-73-4 [RN];205-016-3 [EINECS];4-09-00-03188 [Beilstein];4-09-00-03188 (Beilstein Handbook Reference) [Beilstein];ALLYL PHTHALATE;benzene-1,2-dicarboxylic acid diallyl ester;bis(prop-2-enyl) benzene-1,2-dicarboxylate;C049098;Dap;DAP monomer;Dapon R;dapon r.;Di-2-propenyl 1,2-benzenedicarboxylate;diallyl benzene-1,2-dicarboxylate;Diallyl ester of phthalic acid;Diallyl ester o-phthalic acid;Diallyl Phthalate Monomer, DAP;Diallyl phthalic acid;Diallylester kyseliny ftalove [Czech];Diallylester kyseliny ftalove;Diallylester kyseliny ftalove [Czech];diallylester phthalic acid;DIALLYLPHTHALATE;diprop-2-enyl benzene-1,2-dicarboxylate;EINECS 205-016-3;InChI=1/C14H14O4/c1-3-9-17-13(15)11-7-5-6-8-12(11)14(16)18-10-4-2/h3-8H,1-2,9-10H;MFCD00008646 [MDL number];NCGC00091365-02;Nonflammable decobest da;Nonflammable decobest DA (Salt/Mix);o-phthalic acid diallyl ester;o-Phthalic acid, diallyl ester;phthalic acid diallyl ester;Phthalic acid, bis-allyl ester;Phthalic acid, diallyl ester;POLY(DIALLYL PHTHALATE);prop-2-enyl 2-(prop-2-enyloxycarbonyl)benzoate;RX 1-501N (Salt/Mix);RX 3-1-530 (Salt/Mix);ST5405391;UNII:F79L0UL6ST;UNII-F79L0UL6ST;WLN: 1U2OVR BVO2U1;DAP, Phthalic acid diallyl ester; Dapon 35; Dapon R; Phthalic acid, diallyl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester;Diallyl Phthalate Prepolymer[DAISO DAPTM] ; Diallyl Isophthalate Prepolymer[DAISO ISO DAP] ; Diallyl Orthophthalate Monomer[DAISO DAPTM Monomer] ;Diallyl Isophthalate Monomer[DAISO DAPTM 100 Monomer] ;Polymer; Thermoset; Diallyl Phthalate (DAP); Diallyl Phthalate (DAP) Molding Compound, Short Glass Fiber Filled;o-Phthalic acid, diallyl ester; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; Phthalic acid, diallyl ester; Allyl phthalate; Dapon R; o-Phthalic acid, diallyl ester; Dapon 35; NCI-C50657; Diallylester kyseliny ftalove; Diallyl ester of phthalic acid; DAP monomer; Diallyl ester o-phthalic acid; Diallylester phthalic acid; 1,2 Benzenedicarboxylic acid, 1,2-di-2-propen-1-yl ester; NSC 7667;ALLYL PHTHALATE 1,2-BENZENEDICARBOXYLIC ACID, DI-2-PROPENYL ESTER;DAP;DAP-M;DAPON 35;DAPON R;DAPPU;DIALLYL ESTER O-PHTHALIC ACID;DIALLYL PHTHALATE;DIALLYLESTER PHTHALIC ACID;DT 170;NCI-C50657;O-PHTHALIC ACID, DIALLYL ESTER;PHTHALIC ACID, DIALLYL ESTER;1,2-benzenedicarboxylic acid, di-2-propen-1-yl ester;1,2-benzenedicarboxylic acid, di-2-propenyl ester;diallylester phthalic acid;diallylphthalate; diprop-2-en-1-yl benzene-1,2-dicarboxylate;phthalic acid diallyl ester;o-phthalic acid diallyl ester;phthalic acid, diallyl ester;o-phthalic acid, diallyl ester;phthalic acid, diallyl ester (8CI);prop-2-enyl 2-(prop-2-enyloxycarbonyl)benzoate;bis(prop-2-enyl) benzene-1,2-dicarboxylate;bis(prop-2-enyl) benzene-1,2-dicarboxylate;benzene-1,2-dicarboxylic acid diallyl ester;Diallyl Phthalate Monomer, DAP; 1,2-Benzenedicarboxylic acid, 1,2-di-2-propen-1-yl ester;1,2-Benzenedicarboxylic acid di-2-propenylester;1,2-di-2-Propen-1-yl Ester 1,2-Benzenedicarboxylic Acid; di-2-Propenyl Ester 1,2-Benzenedicarboxylic Acid; Allyl Phthalate; DAP Monomer; DAP-M; DT 170; Daiso DAP Monomer; Dap Tohto DT 170; Dapon R; Dappu; Diallyl Phthalate; NSC 7667;Phthalic acid, diallyl ester;Allyl phthalate;Dapon R;Diallyl phthalate;o-Phthalic acid, diallyl ester;Dapon 35;NCI-C50657;Diallylester kyseliny ftalove;Diallyl ester of phthalic acid;DAP;Daponite sheet;Diallyl ester o-phthalic acid;Diallylester phthalic acid;Nonflammable decobest DA;RX 1-501N;RX 3-1-530;Dioctyl phthalate; Bis(2-methoxyethyl)phthalate ; Di-n-octyl phthalate n-Octyl; n-decyl phthalate; Dimethyl p-phthalate; Dimethyl o-phthalate ; Poly(diallyldimethylammonium chloride) ; Diisodecyl phthalate ; N,N'-diallyltartardiamide; DIALLYL PHTHALATE;1,2-BENZENEDICARBOXYLIC ACID, DI-2-PROPENYL ESTER;DI-2-PROPENYL 1,2-BENZENEDICARBOXYLATE;PHTHALIC ACID, DIALLYL ESTER;1,2-Benzenedicarboxylic acid, di-2-propenyl ester;1,2-Benzenedicarboxylic acid,esters,di-2-propenyl ester;o-Phthalic acid, diallyl ester;DAP monomer (Diallyl Phthalate monomer) manufacturer;Phthalic acid, diallyl ester;bis(prop-2-enyl) benzene-1,2-dicarboxylate; DAP; Dappu; daponr; Dapon R; dapon35; Dapon 35; RX 1-501N; NCI-C50657; RX 3-1-530; DAP; Monomer; 131-17-9; Allyl phthalate; Dapon R; Dapon 35; Diallylphthalate; DAP; Dappu; daponr; Dapon R; dapon35; Dapon 35; RX 1-501N; NCI-C50657; RX 3-1-530; DAP MonoMer; diallyl phthalate; DIALLYL PHTHALATE; 131-17-9; Allyl phthalate; Dapon R; Dapon 35; Diallylphthalate; Phthalic Acid Diallyl Ester; Phthalic acid, diallyl ester; o-Phthalic acid, diallyl ester; NCI-C50657; 1,2-Benzenedicarboxylic acid, di-2-propenyl ester; NSC 7667; Diallylester phthalic acid; Diallylester kyseliny ftalove; EINECS 205-016-3; Diallylester kyseliny ftalove; o-phthalic acid diallyl ester; poly(diallyl phthalate); Phthalic acid diallyl; diallyl benzene-1,2-dicarboxylate; Phthalic acid, diallyl ester (8CI); 1,2-Benzenedicarboxylicaciddi-2-propenylester; DIPROP-2-ENYL BENZENE-1,2-DICARBOXYLATE; prop-2-enyl 2-(prop-2-enyloxycarbonyl)benzoate;DİALLİL FİTALAT; dialil fitalat; dıallyl fitalat; diallil ftalat; dialil ftalat
DAP terimi hem monomerik hem de polimerik formlar için kullanılır. Diallyl Phthalate monomer, doymamış polyester reçinelerde çapraz bağlayıcı bir madde olarak kullanılır. Diallyl Phthalate, bir polimer olarak, termoset kalıplama tozları, döküm reçineleri ve laminatların üretiminde kullanılır. Bu, kritik, yüksek performanslı askeri ve ticari elektrikli bileşenler için, uzun süre yüksek ısı ve yüksek nem koşullarında aşırı çevre koşullarına maruz kaldığında dahi, üstün yalıtım özelliklerini koruyabilme kabiliyeti nedeniyle uzun vadeli güvenilirliğin talep edildiği malzeme seçicidir zaman dönemleri. Ek olarak, DAP bileşikleri, rekabetçi malzemelerin çarpılabileceği yüksek ısı lehimleme ortamlarında boyutsal değişime direneceklerdir.
Diallyl Phthalate, orta derecede sert materyallerin yerleştirilmesi için önerilen doldurulmuş bir termoset reçinesidir ve iyi bir kenar tutma sağlar. Cam veya mineral dolu olarak mevcuttur. MIL-M-14 Dialil Fitalat (D72 / 6120F) başına dialil ftalat, sıkıştırma ile kalıplanmış şekiller halinde işlenmiş kısa cam elyaf dolu, alev retarantı, genel amaçlı diallyl orto ftalat kalıplama bileşiğidir. NASA gazetecilik testlerini geçti. 300 ° - 3807 ° C'de kalıplanabilir; F ve 250 ila 1000 psi arasındadır. Düzgün kürleşen parçalar mükemmel boyutsal kararlılığa ve iyi elektriksel ve fiziksel özelliklere sahiptir. Uygulamalar şunları içerir: konnektörler, birbirine bağlı cihazlar, terminal panoları, saksı bardakları, başlıklar, anahtarlar ve devre kesiciler. Dialil fitalat, birçok polimerde bir plastikleştirici olarak yaygın olarak kullanılan renksiz, yağlı bir sıvıdır. Diallil fitalat, inhibe olmadıkça kendiliğinden polimerize olacaktır. Bir polimer olarak, düşük basınçlı lamine edilmiş kumaş ve kağıt için Dialil fitalat kullanılır.
DAP, en olumsuz çevresel koşullar altında bile üstün elektronik izolasyona sahiptir. Bu bileşiklerin kalıplanması kolaydır ve gaz çıkışı yoktur. DAP bileşikleri, uçlar için aşındırıcı değildir ve hava şartlarına, mantarlara ve çoğu çözücüye karşı dirençlidir. Tam kürlenmiş parçalar, yük altında bile eşsiz boyutsal stabiliteye sahiptir. Lehim sıcaklığına dayanırlar ve kür sonrası sürünmez. Bu nedenle bu son teknoloji malzeme alanı programında, konektörde ve elektronik endüstrisinde yoğun şekilde kullanılmaktadır. Çeşitli renk ve akışlarda sunulan DAP'ler, soğuk depolamaya ihtiyaç duymazlar ve 23 ° C'de bir yılın ortalama bir raf ömrüne sahiptirler. Dalyalıfitalat, çoğu organik çözücü madde içinde çözünürdür. Dialil ftalat kısmen glikol, benzin, mineral yağ ve gliserolde çözünür. Diallil ftalat suda çözünmez.
Bu yazıda, yapısal yapıştırıcıların formüle edilmesinde kullanılan neme duyarlı epoksitlerin adayı olarak dialil ftalat reçineleri anlatılmaktadır. Polimerize dialil ftalat, arzu edilen performans özelliklerinin çoğuna sahipti, ancak aşırı derecede gevrek idi. Esnekleştirici monomerler değerlendirildi. Bazı umut verici kopolimerler tanımlandı. Diallil ftalat / epoksi geçirmeyen polimer ağları da araştırılmıştır. Dialil fitalat, C14H14O4 formülüne sahip organik bir bileşiktir ve sistematik adı ürün adı ile aynıdır. CAS kayıt numarası 131-17-9 ile Dialil fitalat ayrıca 1,2-Benzendikarboksilik asit, di-2-propenil ester olarak adlandırılır. Dialil ftalat, C12 ila C63 ürün kategorilerine aittir; Karbonil Bileşikleri; esterler; Alfa Sırala; Analitik Standartlar; AromatiklerVolatikler / Semivolatiller; Kimyasal Sınıf; Esterler Analitik Standartları; plastikleştiriciler; Ester serisi. EINECS numarası 205-016-3'tür. Buna ek olarak, molekül ağırlığı 246.26'dır. Sınıflandırma kodları şunlardır: (1) Mutasyon verileri; (2) Deri / Göz Tahriş Edici; (3) Tümör verileri. Bu kimyasalın mühürlenmesi ve serin, havalandırmalı ve kuru bir yerde saklanması gerekir. Ayrıca, Dialil ftalat oksit, ısı ve ateşten korunmalıdır. Dearil ftalat, DAP polimerleştirme sıvısı ve DAP reçinesi üretmek için kullanılır ve Dialil ftalat da çapraz bağlayıcı madde olarak kullanılır. DAP terimi hem monomerik hem de polimerik formlar için kullanılır. Monomer, doymamış polyester reçinelerde çapraz bağlayıcı bir madde olarak kullanılır. Diallyl Phthalate, bir polimer olarak, termoset kalıplama tozları, döküm reçineleri ve laminatların üretiminde kullanılır. Bu, kritik, yüksek performanslı askeri ve ticari elektrikli bileşenler için, uzun süre yüksek ısı ve yüksek nem koşullarında aşırı çevre koşullarına maruz kaldığında dahi, üstün yalıtım özelliklerini koruyabilme kabiliyeti nedeniyle uzun vadeli güvenilirliğin talep edildiği malzeme seçicidir zaman dönemleri. Ek olarak, DAP bileşikleri, rekabetçi malzemelerin çarpılabileceği yüksek ısı lehimleme ortamlarında boyutsal değişime direneceklerdir.
Diallyl Phthalate (DAP) reçine, elektrik yalıtımı özellikleri, ısı direnci, su direnci, kimyasal direnç ve kalıplama gibi birçok mükemmel fiziksel özelliklere sahip bir termoset reçinesidir. Mürekkep ve inşaat malzemeleri içinde kullanılmanın yanı sıra, bu malzeme, yüksek kalite seviyesi gerektiren elektronik ve elektrikli bileşenler gibi farklı endüstrilerdeki geniş bir yelpazeye hitap etmektedir.
Hızlı kuruma nedeniyle, DAP, organik çözücü içermeyen UV baskı mürekkeplerinde kullanılır. Diallyl Phthalate, zorlu yüksek sıcaklık ve yüksek gerilim ortamlarında yüksek dayanıklılık için elektrikli ve elektronik parçalar da benimser. Ayrıca, uçucu organik bileşikler (VOC) içermeyen çevre dostu dekoratif laminat yapı malzemeleri için de kullanılır. Bunların en önemlileri şu anda monomerler ve prepolimerler (reçineler) halinde bulunan dialil ftalat (DAP) ve dialil izo-fitalat (DAIP) 'dir. Hem DAP hem de DAIP, önceden emdirilmiş cam bez ve kağıt için termoset kalıplama bileşiklerine ve reçinelere kolayca dönüştürülür. Dialil ftalat aynı zamanda doymamış polyesterler için çapraz bağlayıcı maddeler olarak da kullanılır. DAP reçinesi, piyasada kuru, serbest akışlı bir beyaz toz olarak bulunan ilk all-alilik polimerdir. Kimyasal olarak, DAP, yumuşatır ve ısı ve basınç altında akar (kalıplama ve laminasyonda olduğu gibi) nispeten doğrusal kısmen polimerize edilmiş bir reçinedir ve sertleşme sırasında üç boyutlu çözünmeyen bir termoset reçinesiyle çapraz bağlantılar oluşturur. Müşterilerin lekeli ihtiyaçlarına paralel olarak, müşterilerimize karşı bulaşıcı olmayan bir Diallyl Phthalate yelpazesi sunuyoruz. Bu Diall Fitalat, kanıtlanmış kimyasal bileşikler ve kimyasal reaksiyonlar kullanılarak formüle edilmiştir. Sunduğumuz Diallyl Phthalate kalite faktörleri konusunda kalite uzmanı tarafından incelenir. Ayrıca, bu Diall Fitalat farklı ambalaj seçenekleri ve makul fiyatlarla sağlanmaktadır. DAP, en olumsuz çevresel koşullar altında bile üstün elektronik izolasyona sahiptir. Bu bileşiklerin kalıplanması kolaydır ve gaz çıkışı yoktur. DAP bileşikleri, uçlar için aşındırıcı değildir ve hava şartlarına, mantarlara ve çoğu çözücüye karşı dirençlidir. Tam kürlenmiş parçalar, yük altında bile eşsiz boyutsal stabiliteye sahiptir. Lehim sıcaklığına dayanırlar ve kür sonrası sürünmez. Bu nedenle bu son teknoloji malzeme alanı programında, konektörde ve elektronik endüstrisinde yoğun şekilde kullanılmaktadır. Çeşitli renk ve akışlarda sunulan DAP'ler soğuk depolamaya ihtiyaç duymazlar ve 23 ° C'de ortalama bir yıllık raf ömrüne sahiptirler.
DİALİL FİTALATL ÖZELLİKLERİ
GÖRÜNÜŞÜ: Renksiz Sıvı
KOKU: hafif koku.
Erime noktası: -70 ° C
Kaynama noktası: 165-167 ° C5 mm Hg (aydınlık)
Yoğunluk 1.121 g / mL, 25 ° C'de (aydınlık)
buhar yoğunluğu 8.3 (vs hava)
buhar basıncı 2,3 mm Hg (150 ° C)
kırılma indisi n20 / D 1.519 (aydınlatılmış)
Parlama noktası:> 230 ° F
saklama sıcaklığı. Buzdolabı
çözünürlük 0.18 g / l
Sıvı Form
renk Saydam renksiz ila açık sarı
Suda Çözünürlük 6 g / L (20 ºC)
DİALİL FİTALAT UYGULAMASI
Çapraz bağlama maddesi, ısıyla sertleşen döküm tozları, döküm reçineleri ve laminatlar, askeri, elektronik parçalar. Bu tür DAP kalıplama bileşiklerinin kullanımı büyük oranda elektrikli ve elektronik parçalar, konektörler, dirençler, paneller, anahtarlar ve izolatörler içindir.
dialil Fitalat, çapraz bağlama maddesi, ısıyla sertleşen döküm tozları, döküm reçineleri ve askeri, elektronik bileşenler laminatları olarak kullanılır. Bu tür DAP, Diall Ftalat kalıplama bileşiklerinin kullanımı büyük oranda elektrikli ve elektronik parçalar, konektörler, dirençler, paneller, anahtarlar ve izolatörler içindir. Kalıplama bileşiklerinin diğer uygulamaları arasında alet tutamakları, kontrol düğmeleri, yemek takımları ve pişirme ekipmanları bulunur. Dialil fitalat (DAP), birçok elektrik uygulamasında genellikle bir dökme kalıplama bileşiği olarak kullanılır.
The term DAP is used both for the monomeric and polymeric forms. The monomer, Diallyl Phthalate is used as a cross-linking agent in unsaturated polyester resins. As a polymer, Diallyl Phthalate is used in the production of thermosetting molding powders, casting resins and laminates. This is the material of choice for critical, high-performance military and commercial electrical components where long-term reliability is demanded due to its ability to retain its superior insulating properties, even when subjected to extreme environmental conditions of high heat and high humidity over long time periods. Additionally, DAP compounds will resist dimensional change in high-heat soldering environments where competitive materials may warp.
Diallyl Phthalate is a filled thermoset resin recommended for mounting moderately hard materials and provides good edge retention. It is available as either glass or mineral filled. Diallyl Phthalate per MIL-M-14 Diallyl Phthalate (D72/6120F) is a short glass fibre filled, flame retarant, general purpose diallyl ortho phthalate molding compound which is processed into compression-molded shapes. It has passed NASA outgassing tests. It can be molded at 300° to 3807deg; F and 250 to 1000 psi. Properly cured parts show excellent dimensional stability, as well as good electrical and physical properties. Applications include: connectors, interconnecting devices, terminal boards, potting cups, headers, switches, and circuit breakers. Diallyl phthalate is A colorless, oily liquid commonly used as a plasticizer in many types of polymers. Diallyl phthalate will self-polymerize unless it is inhibited. As a polymer, Diallyl phthalate is used for low-pressure laminated cloth and paper.
DAP possess superior electronic insulation, even under the most adverse environmental conditions. These compounds are easy to mold and have no out gassing. DAP compounds are non-corrosive to inserts and resistant to weathering, fungus, and most solvents. Fully cured parts possess unsurpassed dimensional stability, even under load. They withstand solder temperature and will not creep after curing. That is why this state of the art material is used extensively in the space program, the connector and the electronics industries. Offered in a variety of colors and flows, DAPs do not require cold storage and have an average shelf life of one year at 23° C. Diallyl phthalate is Soluble in most organic solvents. Diallyl phthalate is Partially soluble in glycols, gasoline, mineral oil and glycerol. Diallyl phthalate is an Insoluble in water.
This paper describes diallyl phthalate resins as a candidate replacement for the moisture sensitive epoxies used in formulating structural adhesives. Polymerized diallyl phthalate had most of the performance properties desired but was excessively brittle. Flexibilizing monomers were evaluated. Some promising copolymers were defined. Diallyl phthalate/epoxy interpenetrating polymer networks were also explored.
Typical Applications
Diallyl Phthalate is used as Cross-linking agent, thermosetting molding powders, casting resins, and laminates, military, electronic components. Uses of such DAP, Diallyl Phthalate molding compounds are largely for electrical and electronic parts, connectors, resistors, panels, switches, and insulators. Other applications for molding compounds include appliance handles, control knobs, dinnerware, and cooking equipment. Diallyl phthalate (DAP) is commonly used as a bulk-molding compound in many electrical applications.
Diallyl phthalate is an organic compound with the formula C14H14O4, and its systematic name is the same with the product name. With the CAS registry number 131-17-9, Diallyl phthalate is also named as 1,2-Benzenedicarboxylic acid, di-2-propenyl ester. Diallyl phthalate belongs to the product categories of C12 to C63; Carbonyl Compounds; Esters; Alpha Sort; Analytical Standards; AromaticsVolatiles/ Semivolatiles; Chemical Class; Esters Analytical Standards; Plasticizers; Ester series. Its EINECS number is 205-016-3. In addition, the molecular weight is 246.26. Its classification codes are: (1)Mutation data; (2)Skin / Eye Irritant; (3)Tumor data. This chemical should be sealed and stored in a cool, ventilated and dry place. Moreover, Diallyl phthalate should be protected from oxides, heat and fire. Diallyl phthalate is used to produced DAP polymerization fluid and DAP resin, and Diallyl phthalate is also used as crosslinking agent. The term DAP is used both for the monomeric and polymeric forms. The monomer is used as a cross-linking agent in unsaturated polyester resins. As a polymer, Diallyl Phthalate is used in the production of thermosetting molding powders, casting resins and laminates. This is the material of choice for critical, high-performance military and commercial electrical components where long-term reliability is demanded due to its ability to retain its superior insulating properties, even when subjected to extreme environmental conditions of high heat and high humidity over long time periods. Additionally, DAP compounds will resist dimensional change in high-heat soldering environments where competitive materials may warp.
Diallyl Phthalate(DAP) resin is a thermosetting resin with a lot of excellent physical properties such as electrical insulation properties, heat resistance, water resistance, chemical resistance, and molding. In addition to being used in inks and construction materials, this material addresses a wide range of needs in different industries such as electronic and electrical components which require high quality level. Because of quick-drying, DAP is used in organic solvent free UV printing inks. Diallyl Phthalate is also adopted electric and electronic parts for high durability in tough high temperature and high voltage environments.DAP is also used in environmentally friendly decorative laminate construction material which does not contain volatile organic compounds (VOC). The most important of these are diallyl phthalate (DAP) and diallyl iso-phthalate (DAIP), which are currently available in the form of monomers and prepolymers (resins). Both DAP and DAIP are readily converted to thermoset molding compounds and resins for preimpregnated glass cloth and paper. Diallyl Phthalate are also used as cross-linking agents for unsatur-ated polyesters. DAP resin is the first all-allylic polymer commercially available as a dry, free-flowing white powder. Chemically, DAP is a relatively linear partially polymerized resin that softens and flows under heat and pressure (as in molding and laminating), and cross-links to a three-dimensional insoluble thermoset resin during curing. In line with clients' dappled needs, we bring forth an unimpeachable range of Diallyl Phthalate to our clients. This Diallyl Phthalate is formulated by using the quality proven chemical compounds & chemical reactions. Our offered Diallyl Phthalate is examined on quality factors under the direction of quality specialist. Moreover, this Diallyl Phthalate is provided in different packaging options & reasonable rates. DAP possess superior electronic insulation, even under the most adverse environmental conditions. These compounds are easy to mold and have no out gassing. DAP compounds are non-corrosive to inserts and resistant to weathering, fungus, and most solvents. Fully cured parts possess unsurpassed dimensional stability, even under load. They withstand solder temperature and will not creep after curing. That is why this state of the art material is used extensively in the space program, the connector and the electronics industries. Offered in a variety of colors and flows, DAPs do not require cold storage and have an average shelf life of one year at 23° C.
The diallyl phthalate, C6H4(COOCH2CH=CH2)2; a colorless, oily liquid.It is virtually insoluble in water, gasoline, petroleum oils, glycerol, and glycols but is miscible with ethanol. Diallyl phthalate is made from allyl alcohol and phthalic anhydride in the presence of acid catalysts. It is used as a plasticizer for alkyl resins, chlorinated rubber, polyvinyl chloride, and polyvinyl acetate.Diallyl Phthalate(DAP) resin is a thermosetting resin with a lot of excellent physical properties such as electrical insulation properties, heat resistance, water resistance, chemical resistance, and molding. In addition to being used in inks and construction materials, this material addresses a wide range of needs in different industries such as electronic and electrical components which require high quality level.Because of quick-drying, diallyl phthalate (DAP) is used in organic solvent free UV printing inks. It is also adopted electric and electronic parts for high durability in tough high temperature and high voltage environments. Diallyl phthalate (DAP) is also used in environmentally friendly decorative laminate construction material which does not contain volatile organic compounds (VOC).
Phthalates or phthalate esters, are esters of phthalic acid and are mainly used as plasticizers (substances added to plastics to increase their flexibility, transparency, durability, and longevity). Phthalates are manufactured by reacting phthalic anhydride with alcohol(s) that range from methanol and ethanol (C1/C2) up to tridecyl alcohol (C13), either as a straight chain or with some branching. They are divided into two distinct groups, with very different applications, toxicological properties, and classification, based on the number of carbon atoms in their alcohol chain. They are used primarily to soften polyvinyl chloride (PVC). Lower-molecular-weight phthalates (3-6 carbon atoms in their backbone) are being gradually replaced in many products in the United States, Canada, and European Union over health concerns.[citation needed] They are replaced by high-molecular-weight phthalates (those with more than 6 carbons in their backbone, which gives them increased permanency and durability). In 2010, the market was still dominated by high-phthalate plasticizers; however, due to legal provisions and growing environmental awareness and perceptions, producers are increasingly forced to use non-phthalate plasticizers. Diallyl Phthalate(DAP) resin is a thermosetting resin with a lot of excellent physical properties such as electrical insulation properties, heat resistance, water resistance, chemical resistance, and molding. In addition to being used in inks and construction materials, this material addresses a wide range of needs in different industries such as electronic and electrical components which require high quality level. Because of quick-drying, DAP is used in organic solvent free UV printing inks. It is also adopted electric and electronic parts for high durability in tough high temperature and high voltage environments. DAP is also used in environmentally friendly decorative laminate construction material which does not contain volatile organic compounds (VOC).
DIALLYL PHTHALATE PROPERTIES
APPEARANCE: Colorless Liquid
ODOR:mild odor
Melting point:-70 °C
Boiling point:165-167 °C5 mm Hg(lit.)
Density 1.121 g/mL at 25 °C(lit.)
vapor density 8.3 (vs air)
vapor pressure 2.3 mm Hg ( 150 °C)
refractive index n20/D 1.519(lit.)
Flash point:>230 °F
storage temp. Refrigerator
solubility 0.18g/l
form Liquid
color Clear colorless to light yellow
Water Solubility 6 g/L (20 ºC).
DIALLYL PHTHALATE APPLICATION
Phthalates are used in a wide range of common products, and are released into the environment. There is no covalent bond between the phthalates and plastics; rather, they are entangled within the plastic as a result of the manufacturing process used to make PVC articles. They can be removed by exposure to heat or with organic solvents. Phthalate exposure may be through direct use or by indirect means through leaching and general environmental contamination. Diet is believed to be the main source of di(2-ethylhexyl) phthalate (DEHP) and other phthalates in the general population. Fatty foods such as milk, butter, and meats are a major source. In studies of rodents exposed to certain phthalates, high doses have been shown to change hormone levels and cause birth defects. Phthalates are used in a large variety of products, from enteric coatings of pharmaceutical pills and nutritional supplements to viscosity control agents, gelling agents, film formers, stabilizers, dispersants, lubricants, binders, emulsifying agents, and suspending agents. End-applications include adhesives and glues, agricultural adjuvants, building materials, personal-care products, medical devices, detergents and surfactants, packaging, children's toys, modelling clay, waxes, paints, printing inks and coatings, pharmaceuticals, food products, and textiles. Phthalates are also frequently used in soft plastic fishing lures, caulk and paint pigments. Phthalates are used in a variety of household applications such as shower curtains, vinyl upholstery, adhesives, floor tiles, food containers and wrappers, and cleaning materials. Personal-care items containing phthalates include perfume, eye shadow, moisturizer, nail polish, liquid soap, and hair spray. Phthalates are also found in modern electronics and medical applications such as catheters and blood transfusion devices. The most widely used phthalates are di(2-ethylhexyl) phthalate (DEHP), diisodecyl phthalate (DIDP), and diisononyl phthalate (DINP). DEHP was the dominant plasticizer used globally in PVC due to its low cost. Benzylbutylphthalate (BBP) is used in the manufacture of foamed PVC, which is used mostly as a flooring material, though its use is decreasing rapidly in the Western countries. Phthalates with small R and R' groups are used as solvents in perfumes and pesticides.
Approximately 8.4 million tonnes of plasticizers are consumed globally every year, of which European consumption accounts for approximately 1.5 million metric tonnes. Approximately 70% of those totals are phthalates, down from about 88% in 2005. The remaining 30% are alternative chemistries. Plasticizers contribute 10-60% of total weight of plasticized products. More recently in Europe and the US, regulatory developments have resulted in a change in phthalate consumption, with the higher phthalates (DINP and DIDP) replacing DEHP as the general purpose plasticizer of choice because DIDP and DINP were not classified as hazardous. All of these mentioned phthalates are now regulated and restricted in many products. DEHP, although most applications are shown to pose no risk when studied using recognized methods of risk assessment, has been classified as a Category 1A reprotoxin, and is now on the Annex XIV of the European Union's REACH legislation, which means that producers and users must submit authorization requests to the European Chemicals Agency in Helsinki in order to continue to use DEHP. Analysis of such applications will involve studies on alternatives and, given the wide number of compounds that have been used as plasticizers, such evaluations are likely to be far-reaching. Cross-linking agent, thermosetting molding powders, casting resins, and laminates, military, electronic components.Uses of such DAP molding compounds are largely for electrical and electronic parts, connectors, resistors, panels, switches, and insulators. Other applications for molding compounds include appliance handles, control knobs, dinnerware, and cooking equipment. connectors, interconnecting devices, terminal boards, potting cups, headers, switches, and circuit breakers.