John-Cook材料本構模型式中， —— 等效塑性應變；——s-1的無量綱塑性比，；—— 相對溫度， A —— 屈服應力，Pa； B —— 應變硬化系數，Pa； n —— 應變硬化指數； C —— 應變率相關系數； m —— 溫度相關系數。表達式的第一項表示對于和〔等溫狀態〕時的應力與應變的函數關系；表達式的第二項和第三項分別表示應變和率溫度的影響。表Johnson和Cook給出的值材料硬度(洛氏)密度g/cm3比熱J/kg.K熔溫KAMPaBMPanCm高導無氧銅F-308.93831356902920.310.0251.09藥筒黃銅F-678.5238511891125050.420.0091.68鎳200F-798.944617261636480.330.0061.44工業純鐵F-727.8945218111753800.320.0600.55卡彭特電工鋼F-837.8945218112903390.400.0550.551006鋼F-947.8945218113502750.360.0221.002024-T351鋁B-752.778757752654260.340.0151.007039鋁B-762.778758773373430.410.0101.004340鋼C-307.8347717937925100.260.0141.03S-7鋼C-507.75477176315394770.180.0121.00鎢合金0.07Ni0.03FeC-4717.0134172315061700.120.0161.00Du-75TiC-4518.64471473107911200.250.0071.00韓永要《彈道學報》第16卷第2期E/GPaA/MPaB/MPaCnmTmelt/KTroom/K93W17.63500.28415061770.0080.121.01450294603鋼7.852100.2207921800.0160.121.01520294〔斷裂破壞時的〕應變其中，D1、D2、D3、D4、D5輸入參數，*是壓力與有效應力之比，。當破壞參數到達1時，發生破壞。*HirofumiIyama,KouseiTakahashi,TakeshiHinata,ShigeruItoh．NumericalSimulationofAluminumAlloyFormingUsingUnderwaterShockWave．8thInternationalLS-DYNAUsersConferenceE/GPaA/MPaB/MPaCnmTmelt/KTroom/KA70393373430.010.411.00Steinberg-Guinan材料本構模型定義材料熔化前的剪切模量p——壓力，V——相對體積，Ec——冷壓縮能，Em——熔化能，R——氣體常數，A——原子量屈服強度如果Em超過Ei，——初始塑性應變，當超過，設置等于。材料熔化之后，和G設置為初始值的一半。$OFHC為高導無氧銅，聚能裝藥藥型罩常用材料*MAT_STEINBERG$MIDR0G0SIGOBETANGAMASIGM28.930.4770.120E-0236.00.4500.000.640E-02$BBPHFATMOGAMOSA2.832.830.377E-030.100E-0263.50.179E+042.021.50$PCSPALLRPFLAGMMNMMXECOEC1-9.003.000.000.000.000.000.000.00$EC2EC3EC4EC5EC6EC7EC8EC90.000.000.000.000.000.000.000.00*EOS_GRUNEISEN$EOSIDCS1S2S3GAMAOAE020.3941.490.000.002.020.4700.00$V01.00M.Katayama,S.Kibe,T.Yamamoto．NumericalandExperimentalStudyontheShapedChargeforSpaceDebrisAssessment．ActaAstronauttcaVol.48,No.5-12,pp.363-372,2001/GPa/GPa/GPa/MPa.K-1maxAluminum27.10.040.484000.271.767-16.692.608e-31.0Copper47.70.120.64360.451.35-17.983.396e-31.0W.H.Lee,J.W.Painter．Materialvoid-openingcomputationusingparticlemethod．InternationalJournalofImpactEngineering22(1999)1-22二階狀態方程剪切模量G與流體應力Y間的本構關系，，，，系數tungstenaluminumsteelTungsten-copperalloy二

階

狀

態

方

程A121.674191.18674664.95783232.4562457A214.933380.7629953.68837264.6163216B010.1958273.44476547.47273614.3432909B112.2632341.545057311.5191480.76214541B29.30515150.964296325.52511386.4410793C00.333884370.433816560.394926130.31988993C10.482488610.548734620.528834120.46744784D07.01.53.62.2019.172.8067.918.983本構關系G01.60.2760.4770.844Ya0.0220.00290.00120.00127.7125.03616000n0.130.10.450.26Ymax0.040.00680.00640.0168b1.3757.9713.14465414.739h-0.0001375-0.0067159-0.000377358-0.0008056q1.01.01.01.0f0.0010.0010.0010.001g0.0010.0010.0010.001R’0.0000086710.0000083260.00011640.00000663Tme45201220.0179017100-a0.270.490.520.92a1.41.71.51.5Mie-Gruneisen狀態方程定義壓縮材料的壓力為定義膨脹材料的壓力為其中：C為us-up曲線的截距，體積聲速S1、S2、S3是us-up曲線斜率的系數，是Gruneisen常數，，a是的一階體積修正。C

cm/usS1S2S30aE出處銅0.3941.492.020.47水0.16471.921-0.0960.00.352.895e-60.1651.920.1(3)Australia0.1491.791.652.895e-6(1)日本0.1482.56-1.9860.22680.502.895e-60.14891.791.65(4)日本0.1481.791.65(5)日本0.14841.790.113.0鎢0.3991.241.54鐵0.45691.492.170.464340鋼0.45781.331.670.43Steel(SS400)0.4581.491.93(5)Aluminum0.53861.3391.97(2)日本POLYRUBBER8.54000E-021.86500E+00(1)HirofumiIyama,KouseiTakahashi,TakeshiHinata,ShigeruItoh．NumericalSimulationofAluminumAlloyFormingUsingUnderwaterShockWave．8thInternationalLS-DYNAUsersConference(2)M.Katayama,S.Kibe,T.Yamamoto．NumericalandExperimentalStudyontheShapedChargeforSpaceDebrisAssessment．ActaAstronauttcaVol.48,No.5-12,pp.363-372,2001(3)JingPingLu,HelenDorsett,DavidL.Kennedy．SimulationofAquariumTestsforPBXW-115(AUST)(4)S.Itoh,H.Hamashima．DeterminationofJWLParametersfromUnderwaterExplosionTest(5)KatsuhikoTakahashi,KenjiMurata,AkioTorii,YukioKato．EnhancementofUnderwaterShockWavebyMetalConfinement多線性多項式狀態方程壓力由下式定義其中，，如果，那么設置，。當設置，時，就可以用于符合律狀態方程的氣體，其中為比熱系數。C0C1C2C3C4C5C6E0V0空氣0.00.00.00.00.40.40.02.5E-6空白材料在仿真計算中，水介質的材料模型可以選用空白材料〔NULL〕，通過此材料來防止計算應力、應變。在LS-DYNA中為材料模型9?？瞻撞牧夏Ｐ捅仨毷褂脿顟B方程。炸藥的材料模型在LS-DYNA中，炸藥的材料模型一般都選用材料類型8，即MAT_HIGH_EXPLOSIVE_BURN。需要定義的參數有，密度、爆速與C-J爆轟壓力等。此種材料類型必須與狀態方程一塊使用。JWL狀態方程炸藥爆轟產物的狀態方程常采用JWL方程。此狀態方程通常用于描述高能炸藥及爆轟產物，其形式為

/g-3爆速/ms-1A

/GPaB

/GpaR1R2E

/GJm-3爆壓/Gpa文章SEP炸藥1.313652.314.301.100.2815.9(1)TNT1.636930373.83.7474.150.90.359.6021(2)371.23.234.150.950.30(3)TNT371.23.234.150.950.30(4)1.658300611.310.654.41.20.328.9(5)pbx95011.8488008.54450.204934.61.350.250.05543(6)PE4

BOOSTER1.597900774.0548.6774.8371.0740.849.38124.0(7)SEP1.3169703723.484.591.060.29(8)(1)HirofumiIyama,KouseiTakahashi,TakeshiHinata,ShigeruItoh．NumericalSimulationofAluminumAlloyFormingUsingUnderwaterShockWave．8thInternationalLS-DYNAUsersConference(2)M.Katayama,S.Kibe,T.Yamamoto．NumericalandExperimentalStudyontheShapedChargeforSpaceDebrisAssessment．ActaAstronauttcaVol.48,No.5-12,pp.363-372,2001(3)M.Katayama,S.Kibe．NumericalStudyoftheConicalShapedChargeforSpaceDebrisImpact．InternationalJournalofImpactEngineering26(2001)357-368(4)MarkZ.Vulitsky,ZviH.Karni．ShipStructuresSubjecttoHighExplosiveDetonation．7thInternationalLS-DYNAUsersConference(5)金乾坤等．3DNumericalSimulationsofPenetrationofOil-WellPerforatorintoConcreteTargets．7thInternationalLS-DYNAUsersConference(6)W.H.Lee,J.W.Painter．Materialvoid-openingcomputationusingparticlemethod．InternationalJournalofImpactEngineering22(1999)1-22(7)JingPingLu,HelenDorsett,DavidL.Kennedy．SimulationofAquariumTestsforPBXW-115(AUST)(8)S.Itoh,H.Hamashima．DeterminationofJWLParametersfromUnderwaterExplosionTest表JWL狀態方程參數炸藥C-J參數JWL狀態方程參數密度g/cm3GPamm/μsGPam3/m3GPaGPaGPa分子HMXHNSPETN特屈兒TNTTNT基B炸藥aCyclotol77/23H-6Octol78/22Pentolite壓裝炸藥A-3其它典型炸藥C-4注裝PBXPBXN-106PBXN-109PBXN-110PBXN-114PBXN-115壓裝PBXLX-10-1LX-14-0PBXN-5b1.2601.5001.7701.7301.6301.7171.7541.7601.8211.7001.6501.6501.6011.6341.6601.6721.7111.7821.8651.83542.07.514.421.514.022.033.528.521.029.532.024.034.225.523.530.028.026.022.027.526.012.037.537.09.115.106.347.036.547.458.307.916.937.988.257.478.487.537.368.308.197.847.608.338.155.708.848.8010.504.106.007.457.198.5610.108.207.008.509.2010.309.608.108.008.909.008.2010.208.709.506.0010.5010.202.7402.4682.8812.8042.8312.7882.642.7982.7272.7062.7313.0922.832.782.78

2.792.838————3.23.3713.819.8682.841778.3162.7366.5463.1573.1625.3617.0586.8371.2524.2603.4758.1748.6540.9531.8611.3609.8570.21341950.41122813.0880.7826.17.07110.826.758.87320.1623.2916.9310.673.2317.6789.9248.51313.389.3738.93310.6512.956.1332.710.988.648-13518.3617.240.6430.6581.1631.3491.2671.1520.6990.7741.0451.0821.0751.1431.1671.0330.9761.081.0431.3251.3341.81615.83.4241.2961.2964.804.556.005.254.404.404.154.24.34.94.54.54.64.44.54.456.005.005.205.004.625.551.401.351.801.601.201.200.951.11.11.11.21.11.051.21.41.02.01.41.23.51.321.320.300.250.320.350.280.280.250.280.300.340.350.20.380.350.330320.250.380.20.40.30.60.380.38B炸藥的改良型，RDX/TNT/石蠟=64/36/1見LX-10-1炸藥的各值，它們是類似的混合炸藥JamesL.O’Daniel,TheodorKrauthammer,KevinL.Koudela．AnUNDEXresponsevalidationmethodology．InternationalJournalofImpactEngineering27(2002)919-937EffectiveorthotropiccompositematerialpropertiesExxEyyEzzxyyzxzGxyGyzGxzg/cm3GPaGPaGPaGPaGPaGPaTOP_L1.9420.3920.3910.740.285850.241830.241837.9293.9033.903ALL30_S1.9415.559.84510.130.423380.196220.259566.1343.8433.843MID_L1.9420.5616.9010.670.348390.218590.245338.1013.8843.922$鋁*MAT_JOHNSON_COOK22.770.2763.37E-033.43E-030.4100.100E-011.000.877E+03300.0.100E-050.875E-05-9.003.000.000.000.000.000.000.00*EOS_GRUNEISEN20.53281.3380.000.002.000.000.000.00$金屬-銅*MAT_JOHNSON_COOK18.960.4781.280.3400000.0000000.900E-030.292E-020.3100.250E-011.090.136E+04294.0.100E-050.383E-05-9.003.000.000.000.000.000.000.00*EOS_GRUNEISEN10.3941.490.000.002.020.4700.000.00$炸藥*MAT_HIGH_EXPLOSIVE_BURN21.78700010.83900000.34000000.00000000.00000000.00000000.0000000*EOS_JWL25.81400026.8010E-24.10000001.00000000.35000000.09000001.0000000$空氣*MAT_NULL31.2250E-30.017.456E-60.00.00.00.0*EOS_LINEAR_POLYNOMIAL30.00.00.00.00.400.40.02.5E-61.0$水*MAT_NULL41.0-1.00E-41E-60.00000000.00000000.00000000.0000000*EOS_GRUNEISEN4.148401.7900000.0000000.00000000.1100003.0000000.00000001.0

$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$MATERIALDEFINITIONS$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$*MAT_HIGH_EXPLOSIVE_BURN21.78700010.83900000.34000000.00000000.00000000.00000000.0000000*EOS_JWL25.81400026.8010E-24.10000001.00000000.35000000.09000001.0000000*INITIAL_DETONATION20.00000000.00000000.00000000.0000000*MAT_NULL11.00000000.00000000.00000000.00000000.00000000.00000000.0000000$水*MAT_01071.000E+000.2e-20.00.0000.000E-002.00*EOS_GRUNEISEN$水$EOSIDCS1S2S3GAMA0AE060.14801.7900.00001.650.02.895e-6$V01.0*EOS_GRUNEISEN$水$EOSIDCS1S2S3GAMA0AE0150.16471.921-0.0960.00000.350.02.895e-6$V01.0*EOS_GRUNEISEN$水$EOSIDCS1S2S3GAMA0AE010.14802.56-1.9860.22680.500.02.895e-6$V01.0$*MAT_JOHNSON_COOK$鎢合金917.61.363.500.2860.0000001.806E-020.177E-020.1201.600E-021.001.723E+03294.0.100E-050.134E-05-9.02.000.002.000.000.000.000.00$*EOS_GRUNEISEN$鎢合金90.3991.240.000.001.540.000.000.00$*MAT_PLASTIC_KINEMATIC$樹脂81.190.780E-010.0000000.800E-030.001.000.000.002.00$*MAT_PLASTIC_KINEMATIC$鎢合金$midroeprsigyetanbeta61.862E+011.170E+000.221.790E-021.0$srcsrpfs0.8$$空氣*MAT_NULL41.280E-030.000E+000.000E+000.000E+000.000E+00*EOS_LINEAR_POLYNOMIAL40.000E-001.000E-050.000E+000.000E+000.4000.4000.000E+000.000E+000.000E+00$$*MAT_JOHNSON_COOK$鐵57.830000.777.920E-035.10E-030.2600.140E-011.030.1793E+042940.100E-050.477E-05-9.00E+03.000.00.800.000.000.000.00*EOS_GRUNEISEN$鐵50.45691.4900.000.002.170.460.001.00$金屬-銅*MAT_JOHNSON_COOK38.960.4781.280.3400000.0000000.900E-030.292E-020.3100.250E-011.090.136E+04294.0.100E-050.383E-05-9.003.000.000.000.000.000.000.00$金屬-銅*EOS_GRUNEISEN30.3941.490.000.002.020.4700.000.00$DefineSteel4340*MAT_JOHNSON_COOK1,7.8400E+00,0.759E-00,2.000E+00,0.320E+00,0.000E+000.793E-02,0.510E-02,2.60E-01,1.400E-02,1.030E+00,1.793E+03,2.930E+02,1.000E-054.400E-06,2.000E-02,2.000E+00,0.000E+00,0.80E+00,2.100E+00,-0.05E+00,2.000E-030.610E+00*EOS_GRUNEISEN1,4.578E-01,1.330E+00,0.000E+00,0.000E+00,1.670E+00,0.430E+00,0.000E+001.000E+00$SIunit:cm-g-microsecond$unitconversionfactor$1psi=6895pa,1dyn=1e-5n,1bar=1e5pa,1g/cm**3=0.0361lb/in**3,1lb=0.454kg本參數援引UniversityofNevadaLasVegas。*MAT_JOHNSON_COOK2,8.33,0.51,1.38,0.358.963E-4,2.9163E-3,0.31,0.025,1.09,1220,293,1E-54.4E-6,2.4E-3,2.0,0,-0.54,4.89,-3.03,0.0141.12*EOS_GRUNEISEN2,0.394,1.489,0,0,2.02,0.471.0*MAT_JOHNSON_COOKMIDRO密度G剪切模量E楊氏模量PR泊松系數DTFVP4340STEEL7.840.7592.00.32OFHCCOPPER8.331.380.35ABNCMTM熔化溫度TR室溫EPSO應變率系數4340STEEL0.793E-20.51E-20.260.0141.0317932931E-5OFHCCOPPER8.963E-42.9163E-30.310.0251.0912202931E-5CP比熱PC失效應力SPALLITD1D2D3D44340STEEL4.4E-60.022.000.82.1-0.050.002OFHCCOPPER4.4E-62.4E-3-0.544.89-3.030.014D54340STEEL0.61OFHCCOPPER1.12*EOS_GRUNEISENE0SIDCS1S2S3GAMAOAE04340STEEL0.45781.331.670.43OFHCCOPPER0.3941.4892.020.47V04340STEEL1.0OFHCCOPPER1.0OFHCCOPPER參數援引ANSYSHELPJohnson_CookMaterialModel單位：國際單位制OFHCCOPPERansys局部數據來自幫助文件Autodynaandls-dyna中john-cook模型參數的對應關系Referencetemper-------TRSpecificHeat-------------CPShearModus-------------GYieldstress---------------AHardingconstant--------BHardingexponent-------NStrainRateconstant----CThermalsofteningexponent------MMeltingTemperature------------TMGRUNEISENParameterC1-------------------CParameterS1-------------------S1GruneisenCoefficient-----------GAMAOMIDROGEPRDTFVP含義denistyShearmodulusYoung’smodulusPoisson’sRate類型IFFFFFF缺省值nonenonenonenonenone0.00.0ANSYS8330138e0.35ABNCMTMTREPS0含義meltroom類型FFFFFFFF缺省值none0.00.00.0nonenonenonenoneANSYS89.83e6291.64e60.310.0251.0912003010CPPCSPALLITD1D2D3D4含義SpecificheatFailurestress類型FFFFFFF缺省值none0.02.00.00.00.00.00.0ANSYS4400240e6-0.544.89-3.030.014D5含義類型F缺省值0.0ANSYS1.12

*MAT_SOIL_AND_FOAM_FAILURE$土壤：21.800E+006.400E-043.000E-013.410E-137.030E-070.3000000-6.90E-080.000-1.04e-01-1.61E-01-1.91E-01-2.24E-01-2.46E-01-2.71E-01-2.83E-01-2.90E-01-4.00E-0102.000E-044.000E-046.000E-041.200E-032.000E-034.000E-036.000E-038.000E-034.100E-02*MAT_HIGH_EXPLOSIVE_BURN$B炸藥11.71700000.79800000.29500000.00000000.00000000.00000000.0000000*EOS_JWL$B炸藥15.24200007.67800-24.20000001.10000000.34000000.08500001.0000000環氧樹脂〔用作隔板〕*MAT_ELASTIC_PLASTIC_HYDRO$MIDR0GSIGYEHPCFS31.1962.400E-025.000E-040.0-9.00$EPS1EPS2EPS3EPS4EPS5EPS6EPS7EPS80.000.000.000.000.000.000.000.00$EPS9EPS10EPS11EPS12EPS13EPS14EPS15EPS160.000.000.000.000.000.000.000.00$ES1ES2ES3ES4ES5ES6ES7ES80.000.000.000.000.000.000.000.00$ES9ES10ES11ES12ES13ES14ES15ES160.000.000.000.000.000.000.000.00*EOS_GRUNEISEN$EOSIDCS1S2S3GAMAOAE030.19333.490-8.29.600.610.000.00$V01.00*MAT_JOHNSON_COOK$紫銅28.960000.460.900E-032.920E-030.3100.250E-011.090.1356E+042100.100E-050.383E-05-9.00E+003.000.03.000.000.000.000.00*EOS_GRUNEISEN$紫銅20.3941.4890.000.002.020.470.001.00*MAT_JOHNSON_COOK$鐵47.830000.777.920E-035.100E-030.2600.140E-011.030.1793E+042940.100E-050.477E-05-9.00E+003.000.00.800.000.000.000.00*EOS_GRUNEISEN$鐵40.45691.4900.000.002.170.460.001.00*MAT_HIGH_EXPLOSIVE_BURN$8701炸藥11.84500000.88350000.33700000.00000000.00000000.00000000.0000000*EOS_JWL$8701炸藥18.54500000.204934.60000001.35000000.25000000.08500001.0000000*MAT_JOHNSON_COOK$鎢合金117.61.363.500.2840000.0000000.151E-010.177E-020.1200.800E-021.000.145E+04294.0.100E-050.134E-05-9.003.000.002.000.000.000.000.00$*EOS_GRUNEISEN$鎢合金10.3991.240.000.001.540.000.000.00

Autodynaandls-dyna中john-cook模型參數的對應關系Referencetemper-------TRSpecificHeat-------------CPShearModus-------------GYieldstress---------------AHardingconstant--------BHardingexponent-------NStrainRateconstant----CThermalsofteningexponent------MMeltingTemperature------------TMGRUNEISENParameterC1-------------------CParameterS1-------------------S1GruneisenCoefficient-----------GAMAO橡膠參數擬合的結果，這是一種比擬軟的橡膠材料：

Mooney-Rivlin模型2參數結果：

C10=0.1294MPa,

C01=0.1236MPa,

Mooney-Rivlin模型3參數結果：

C10=0.3229MPa,

C01=-0.1002MPa,

C11=-0.0332MPa,

Mooney-Rivlin模型5參數結果：

C10=-0.4726MPa,

C01=0.7387MPa,

C20=0.3225MPa,

C11=-1.3357MPa,

C02=1.6082MPa橡膠種類PET

聚對苯二甲酸乙二酯poly(ethylene

terephthalate)

01

PE-HD

高密度聚乙烯polyethylene,

high

density

02

PVC

聚氯乙烯poly(vinyl

chloride)

03

PE-LD

低密度聚乙烯polyethylene,low

density

04

PP

聚丙烯polypropylene

05

PS

聚苯乙烯polystyrene

06

ABS

丙烯腈－丁二烯－苯乙烯塑料

acrylonitrile-butadiene-styrene

plastic

07

PA

聚酰胺polyamide

08

PAN

聚丙烯腈polyacrylonitrile

09

PC

聚碳酸酯polycarbonate

10

PBT

聚對苯二甲酸丁二酯poly(butylene

terephthalate)

11

PE-LLD

線性低密度聚乙烯polyethylene,linear

low

density

12

PE-MD

中密度聚乙烯polyethylene,medium

density

13

PE-UHMW

超高分子量聚乙烯polyethylene,ultra

high

molecular

weight

14

PUR

聚氨酯polyurethane

15

PMMA

聚甲基丙烯酸甲酯poly(methyl

methacrylate)

16

PVAL

聚乙烯醇poly(vinyl

alcohol)

17

PVC-C

氯化聚氯乙烯poly(vinyl

chloride),chlorinated

18

PVC-U

未增塑聚氯乙烯poly(vinyl

chloride),unplasticized

19

PVDC

聚偏二氯乙烯poly(vinylidene

chloride)

20

PVDF

聚偏二氟乙烯poly(vinylidene

fluoride)

21

PVF

聚氟乙烯poly(vinyl

fluoride)

22

UP

不飽和聚酯樹脂unsaturated

polyester

resin

23

UF

脲－甲醛樹脂urea-formaldehyderesin

24

CA

乙酸纖維素cellulose

acetate

25

PEEK

聚醚醚酮polyetheretherketone

26

PEUR

聚醚型聚氨酯polyetherurethane

27

PF

酚醛樹脂phenol-formaldehyde

resin

28

PI

聚酰亞胺polyimide

29

PHBV

聚羥基丁酸酯戊酸酯poly-(hydroxybutyrate-co-hydroxyvalerate

30

PK

聚酮polyketone

30

PTFE

聚四氟乙烯poly

tetrafluoroethylene

31

POM

聚氧亞甲基；聚甲醛；聚縮醛

polyoxymethylene;polyacetal;polyformaldehyde

32

PLA

聚乳酸polylactic

acid

or

polylactide

33

PCL

聚已內酯polycaprolactone

34

PPDO

聚對二氧環己酮

35

PPC

二氧化碳共聚合物carbon

dioxide

copolymer

36

PBS

聚丁二酸丁二醇酯Polybuthylenesuccinate

37

PHA

聚羥基脂肪酸酯polyhydroxyalkanoic

or

polyhydroxyalkanoates

38

PHB

聚-3-羥基丁酸polyhydroxybutyric

acid

or

polyhydroxybutyrate

39

PGA

聚乙交酯poly(glycolic

acid)

40

PEC

PolyEster

Carbonate

or

Poly(Butylene

Succinate/Carbonate)

41

PES

Poly(Ethylene

Succinate)

42

PTMAT

Poly(TetraMethylene

Adipate/Terephthalate)

43

PBAT

Poly(Butylene

Adipate/Terephthalate)

44

AB

丙烯腈－丁二烯塑料acrylonitrile-butadiene

plastic

45

ABAK

丙烯腈－丁二烯－丙烯酸酯塑料

acrylonitrile-butadiene-acrylate

plastic

46

ACS

丙烯腈-氯化聚乙烯-苯乙烯塑料

acrylonitrile-chlorinated

polyethylene-styrene

47

AEPDS

丙烯腈－〔乙烯－丙烯－二烯〕－苯乙烯塑料

acrylonitrile-(ethylene-propylene-diene)-styrene

plastic

48

AMMA

丙烯腈－甲基丙烯酸甲酯塑料

acrylonitrile-methyl

methacryate

plastic

49

ASA

丙烯腈-苯乙烯-丙烯酸酯塑料

acrylonitrile-stytene-acrylate

plastic

50

CAB

乙酸丁酸纖維素cellulose

acetate

butyrate

51

CAP

乙酸丙酸纖維素cellulose

acetate

propionate

52

CEF

甲醛纖維素cellulose

formaldehyde

53

CF

甲酚－甲醛樹脂cresol-formaldehyde

resin

54

CMC

羧甲基纖維素carboxymethyl

cellulose

55

CN

硝酸纖維素cellulose

nitrate

56

COC

環烯烴共聚物cycloolefin

copolymer

57

CP

丙酸纖維素cellulose

propionate

58

CTA

三乙酸纖維素cellulose

triacetate

59

E/P

乙烯－丙烯塑料ethylene-propylene

plastic

60

EAA

乙烯－丙烯酸塑料ethylene-acrylic

acid

plastic

61

EBAK

乙烯－丙烯酸丁酯塑料ethylene-butyl

acrylate

plastic

62

EC

乙基纖維素ethyl

cellulose

63

EEAK

乙烯－丙烯酸乙酯塑料ethylene-ethyl

acrylate

plastic

64

EMA

乙烯－甲基丙烯酸塑料ethylene-methacrylic

acid

plastic

65

EP

環氧；環氧樹脂或塑料epoxide;epoxy

resin

or

plastic

66

ETFE

乙烯－四氟乙烯塑料e

thylene-tetrafluoroethylene

plastic

67

EVAC

乙烯－乙酸乙烯酯塑料ethylene-vinyl

acetate

plastic

68

EVOH

乙烯－乙烯醇塑料ethylene-vinyl

alcohol

plastic

69

FEP

全氟〔乙烯－丙烯〕塑料perfluoro(ethylene-propylene)plastic

70

FF

呋喃－甲醛樹脂furan-formaldehyde

resin

71

LCP

液晶聚合物liquid-crystal

polymer

72

MABS

甲基丙烯酸甲酯－丙烯腈－丁二烯－苯乙烯塑料

methyl

methacrylate-acrylonitrile-butadiene-styrene

plastic

73

MBS

甲基丙烯酸甲酯－丁二烯－苯乙烯塑料

methyl

methacrylate-butadiene-styrene

plastic

74

MC

甲基纖維素methyl

cellulose

75

MF

三聚氰胺－甲醛樹脂melamine-formaldehyde

resin

76

MP

三聚氰胺－酚醛樹脂melamine-phenol

resin

77

MSAN

α－甲基苯乙烯－丙烯腈塑料

α-methylstyrene-acrylonitrile

plastic

78

PAA

聚丙烯酸poly(acrylic

acid)

79

PAEK

聚芳醚酮polyaryletherketone

80

PAI

聚酰胺〔?！硜啺穚olyamidimide

81

PAK

聚丙烯酸酯polyarylate

82

PAR

聚芳酯polyarylate

83

PARA

聚芳酰胺poly(aryl

amide)

84

PB

聚丁烯polybutene

85

PBAK

聚丙烯酸丁酯poly(butyl

acrylate)

86

PBD

1,2－聚丁二烯1,2-polybutadiene

87

PBN

聚萘二甲酸丁二酯poly(butylene

naphthalate)

88

PCCE

亞環己基-二亞甲基-環已基二羧酸酯

poly(cyclohexylene

dimethylene

cyclohexanedicar-

boxylate)

89

PCT

聚〔對苯二甲酸亞環已基-二亞甲酯〕

poly(cyclohexylene

dimethylene

terephthalate)

90

PCTFE

聚三氟氯乙烯polychlorotrifluoroethylene

91

PDAP

聚鄰苯二甲酸二烯丙酯poly(diallyl

phthalate)

92

PDCPD

聚二環戊二烯polydicyclopentadiene

93

PEC

聚酯碳酸酯polyestercarbonate

94

PE-C

氯化聚乙烯polyethylene,chlorinated

95

PEEST

聚醚酯polyetherester

96

PEI

聚醚〔?！硜啺穚olyetherimide

97

PEK

聚醚酮polyetherketone

98

PEN

聚萘二甲酸乙二酯poly(ethylene

naphthalate)

99

PEOX

聚氧化乙烯poly(ethylene

oxide)

100

PESTUR

聚酯型聚氨酯polyesterurethane

101

PESU

聚醚砜polyethersulfone

102

PE-VLD

極低密度聚乙烯polyethylene,very

low

density

103

PFA

全氟烷氧基