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Norma o proyecto bajo la responsabilidad directa de ISO/TC 61/SC 5 Secretaría Etapa ICS
Measurement of thermal conductivity of thin films on silicon substrates
95.99
Plastics — Determination of bulk factor of moulding materials
95.99
Plastics — Determination of bulk factor of moulding materials
60.60
Plastics — Determination of refractive index
95.99
Plastics — Determination of refractive index
60.60
Plastics — Determination of the melt mass-flow rate (MFR) and melt volume-flow rate (MVR) of thermoplastics — Part 1: Standard method
95.99
Plastics — Determination of the melt mass-flow rate (MFR) and melt volume-flow rate (MVR) of thermoplastics — Part 1: Standard method
60.60
Plastics — Determination of the melt mass-flow rate (MFR) and melt volume-flow rate (MVR) of thermoplastics — Part 2: Method for materials sensitive to time-temperature history and/or moisture
90.93
Plastics — Determination of the melt mass-flow rate (MFR) and the melt volume-flow rate (MVR) of thermoplastics
95.99
Plastics — Determination of the melt mass-flow rate (MFR) and the melt volume-flow rate (MVR) of thermoplastics
95.99
Plastics — Determination of the melt mass-flow rate (MFR) and the melt volume-flow rate (MVR) of thermoplastics
95.99
Plastics — Determination of the melt mass-flow rate (MFR) and the melt volume-flow rate (MVR) of thermoplastics — Technical Corrigendum 1
95.99
Plastics — Methods for determining the density of non-cellular plastics — Part 1: Immersion method, liquid pyknometer method and titration method
95.99
Plastics — Methods for determining the density of non-cellular plastics — Part 1: Immersion method, liquid pyknometer method and titration method
95.99
Plastics — Methods for determining the density of non-cellular plastics — Part 1: Immersion method, liquid pycnometer method and titration method
90.92
Plastics — Methods for determining the density of non-cellular plastics — Part 1: Immersion method, liquid pycnometer method and titration method
40.60
Plastics — Methods for determining the density of non-cellular plastics — Part 2: Density gradient column method
95.99
Plastics — Methods for determining the density of non-cellular plastics — Part 2: Density gradient column method
90.60
Plastics — Methods for determining the density of non-cellular plastics — Part 3: Gas pyknometer method
90.93
Plastics — Methods for determining the density and relative density of non-cellular plastics
95.99
Plastics — Polyamides — Determination of "melting point"
95.99
Plastics — Determination of electrical properties of thin sheet and film
95.99
Plastics — Determination of the viscosity of polymers in dilute solution using capillary viscometers — Part 1: General principles
95.99
Plastics — Determination of the viscosity of polymers in dilute solution using capillary viscometers — Part 1: General principles
95.99
Plastics — Determination of the viscosity of polymers in dilute solution using capillary viscometers — Part 1: General principles — Amendment 1
95.99
Plastics — Determination of the viscosity of polymers in dilute solution using capillary viscometers — Part 1: General principles
90.92
Plastics — Determination of the viscosity of polymers in dilute solution using capillary viscometers — Part 1: General principles
50.20
Plastics — Liquid resins — Determination of density by the pyknometer method
95.99
Plastics — Liquid resins — Determination of density by the pycnometer method
60.60
Plastics — Resins in the liquid state or as emulsions or dispersions — Determination of apparent viscosity by the Brookfield Test method
95.99
Plastics — Resins in the liquid state or as emulsions or dispersions — Determination of apparent viscosity using a single cylinder type rotational viscometer method
90.93
Plastics — Determination of the gas transmission rate of films and thin sheets under atmospheric pressure — Manometric method
95.99
Plastics — Determination of residual styrene monomer in polystyrene by gas chromatography
95.99
Plastics — Determination of melting behaviour (melting temperature or melting range) of semi-crystalline polymers
95.99
Plastics — Determination of melting behaviour (melting temperature or melting range) of semi-crystalline polymers by capillary tube and polarizing-microscope methods
95.99
Plastics — Determination of melting behaviour (melting temperature or melting range) of semi-crystalline polymers by capillary tube and polarizing-microscope methods — Technical Corrigendum 1
95.99
Plastics — Determination of melting behaviour (melting temperature or melting range) of semi-crystalline polymers by capillary tube and polarizing-microscope methods
60.60
Plastics — Determination of ash — Part 1: General methods
95.99
Plastics — Determination of ash — Part 1: General methods
95.99
Plastics — Determination of ash — Part 1: General methods
95.99
Plastics — Determination of ash — Part 1: General methods
90.60
Plastics — Determination of ash — Part 2: Polyalkylene terephthalates
95.99
Plastics — Determination of ash — Part 2: Poly(alkylene terephthalate) materials
90.93
Plastics — Determination of ash — Part 3: Unplasticized cellulose acetate
90.93
Plastics — Determination of ash — Part 4: Polyamides
95.99
Plastics — Determination of ash — Part 4: Polyamides
95.99
Plastics — Determination of ash — Part 4: Polyamides
60.60
Plastics — Determination of ash — Part 5: Poly(vinyl chloride)
95.99
Plastics — Determination of ash — Part 5: Poly(vinyl chloride)
90.92
Plastics — Determination of ash — Part 5: Poly(vinyl chloride)
40.60
Plastics — Measurement of resistivity of conductive plastics
95.99
Plastics — Measurement of resistivity of conductive plastics
60.60
Plastics — Styrene/acrylonitrile copolymers — Determination of residual acrylonitrile monomer content — Gas chromatography method
95.99
Plastics — Ion exchange resin — Part 1: Determination of exchange capacity of acrylic anion exchange resins
60.60
Plastics — Ion exchange resin — Part 2: Determination of water content of anion exchange resins in hydroxide form by centrifugation
60.60
Plastics — Ion exchange resin — Part 3: Determination of exchange capacity of anion exchange resins in hydroxide form
60.60
Plastics — Ion exchange resin — Part 4: Determination of particle size by laser diffraction method
40.20
Plastics — Determination of pourability
95.99
Plastics — Determination of pourability
60.60
Plastics — Homopolymer and copolymer resins of vinyl chloride — Determination of residual vinyl chloride monomer — Gas chromatographic method
95.99
Plastics — Poly(vinyl chloride) — Determination of residual vinyl chloride monomer — Gas-chromatographic method
95.99
Plastics — Poly(vinyl chloride) — Determination of residual vinyl chloride monomer using gas-chromatographic method
60.60
Plastics — Determination of matter extractable by organic solvents (conventional methods)
95.99
Plastics — Determination of matter extractable by organic solvents (conventional methods)
95.99
Plastics — Determination of matter extractable by organic solvents (conventional methods)
90.92
Plastics — Determination of matter extractable by organic solvents (conventional methods)
40.60
Plastics — Determination of dynamic mechanical properties — Part 1: General principles
95.99
Plastics — Determination of dynamic mechanical properties — Part 1: General principles
90.93
Plastics — Determination of dynamic mechanical properties — Part 2: Torsion-pendulum method
95.99
Plastics — Determination of dynamic mechanical properties — Part 2: Torsion-pendulum method
90.93
Plastics — Determination of dynamic mechanical properties — Part 3: Flexural vibration — Resonance-curve method
95.99
Plastics — Determination of dynamic mechanical properties — Part 3: Flexural vibration — Resonance-curve method — Technical Corrigendum 1
95.99
Plastics — Determination of dynamic mechanical properties — Part 3: Flexural vibration — Resonance-curve method
60.60
Plastics — Determination of dynamic mechanical properties — Part 4: Tensile vibration — Non-resonance method
95.99
Plastics — Determination of dynamic mechanical properties — Part 4: Tensile vibration — Non-resonance method
90.93
Plastics — Determination of dynamic mechanical properties — Part 5: Flexural vibration — Non-resonance method
95.99
Plastics — Determination of dynamic mechanical properties — Part 5: Flexural vibration — Non-resonance method
90.93
Plastics — Determination of dynamic mechanical properties — Part 6: Shear vibration — Non-resonance method
95.99
Plastics — Determination of dynamic mechanical properties — Part 6: Shear vibration — Non-resonance method
90.93
Plastics — Determination of dynamic mechanical properties — Part 7: Torsional vibration — Non-resonance method
95.99
Plastics — Determination of dynamic mechanical properties — Part 7: Torsional vibration — Non-resonance method
90.93
Plastics — Determination of dynamic mechanical properties — Part 8: Longitudinal and shear vibration — Wave-propagation method
95.99
Plastics — Determination of dynamic mechanical properties — Part 8: Longitudinal and shear vibration — Wave-propagation method
90.93
Plastics — Determination of dynamic mechanical properties — Part 9: Tensile vibration — Sonic-pulse propagation method
95.99
Plastics — Determination of dynamic mechanical properties — Part 9: Tensile vibration — Sonic-pulse propagation method
90.93
Plastics — Determination of dynamic mechanical properties — Part 10: Complex shear viscosity using a parallel-plate oscillatory rheometer
90.92
Plastics — Determination of dynamic mechanical properties — Part 10: Complex shear viscosity using a parallel-plate and a cone-and-plate oscillatory rheometer
40.60
Plastics — Determination of dynamic mechanical properties — Part 11: Glass transition temperature
95.99
Plastics — Determination of dynamic mechanical properties — Part 11: Glass transition temperature
90.93
Plastics — Determination of dynamic mechanical properties — Part 12: Compressive vibration — Non-resonance method
95.99
Plastics — Determination of dynamic mechanical properties — Part 12: Compressive vibration — Non-resonance method
60.60
Plastics — Plastics identification using Raman spectrometric methods
60.60
Caprolactam for industrial use — Determination of absorbance at a wavelength of 290 nm
95.99
Caprolactam for industrial use — Determination of absorbance at a wavelength of 290 nm
60.60
Caprolactam for industrial use — Determination of crystallizing point
95.99
Plastics — Thermogravimetry of polymers — Temperature scanning method
95.99
Caprolactam for industrial use — Determination of colour of 50 % aqueous caprolactam solution, expressed in Hazen units (platinum-cobalt scale) — Spectrometric method
95.99
Caprolactam for industrial use — Determination of colour of 50 % aqueous caprolactam solution, expressed in Hazen units (platinum-cobalt scale) — Spectrometric method
60.60
Caprolactam for industrial use — Determination of permanganate index — Spectrometric method
95.99
Plastics — Determination of permanganate absorption number of caprolactam — Spectrometric method
90.93
Caprolactam for industrial use — Determination of volatile bases content — Titrimetric method after distillation
95.99
Plastics — Determination of residual peroxide — Gas chromatography method
20.60
Plastics — Determination of the molecular mass and molecular mass distribution of polymer species by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS)
95.99
Plastics — Determination of the molecular mass and molecular mass distribution of polymer species by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS)
90.93
Plastics — Polyamides — Determination of e-caprolactam and w-laurolactam by gas chromatography
95.99
Plastics — Polyamides — Determination of e-caprolactam and w-laurolactam by gas chromatography — Technical Corrigendum 1
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 1: General principles
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 1: General principles
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 1: General principles
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 1: General principles
60.60
Plastics — Differential scanning calorimetry (DSC) — Part 2: Determination of glass transition temperature
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 2: Determination of glass transition temperature and glass transition step height
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 2: Determination of glass transition temperature and step height
60.60
Plastics — Differential scanning calorimetry (DSC) — Part 3: Determination of temperature and enthalpy of melting and crystallization
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 3: Determination of temperature and enthalpy of melting and crystallization — Amendment 1
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 3: Determination of temperature and enthalpy of melting and crystallization
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 3: Determination of temperature and enthalpy of melting and crystallization
90.92
Plastics — Differential scanning calorimetry (DSC) — Part 3: Determination of temperature and enthalpy of melting and crystallization
40.60
Plastics — Differential scanning calorimetry (DSC) — Part 4: Determination of specific heat capacity
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 4: Determination of specific heat capacity
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 4: Determination of specific heat capacity
60.60
Plastics — Differential scanning calorimetry (DSC) — Part 5: Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 5: Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
90.92
Plastics — Differential scanning calorimetry (DSC) — Part 5: Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
40.60
Plastics — Differential scanning calorimetry (DSC) — Part 6: Determination of oxidation induction time
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 6: Determination of oxidation induction time — Amendment 1
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 6: Determination of oxidation induction time (isothermal OIT) and oxidation induction temperature (dynamic OIT)
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 6: Determination of oxidation induction time (isothermal OIT) and oxidation induction temperature (dynamic OIT)
90.92
Plastics — Differential scanning calorimetry (DSC) — Part 6: Determination of oxidation induction time (isothermal OIT) and oxidation induction temperature (dynamic OIT)
40.60
Plastics — Differential scanning calorimetry (DSC) — Part 7: Determination of crystallization kinetics
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 7: Determination of crystallization kinetics
95.99
Plastics — Differential scanning calorimetry (DSC) — Part 7: Determination of crystallization kinetics
60.60
Plastics — Differential scanning calorimetry (DSC) — Part 8: Determination of thermal conductivity
60.60
Plastics — Thermogravimetry (TG) of polymers — Part 1: General principles
95.99
Plastics — Thermogravimetry (TG) of polymers — Part 1: General principles
60.60
Plastics — Thermogravimetry (TG) of polymers — Part 2: Determination of activation energy
95.99
Plastics — Thermogravimetry (TG) of polymers — Part 2: Determination of activation energy
95.99
Plastics — Thermogravimetry (TG) of polymers — Part 2: Determination of activation energy
60.60
Plastics — Thermogravimetry (TG) of polymers — Part 3: Determination of the activation energy using the Ozawa-Friedman plot and analysis of the reaction kinetics
95.99
Plastics — Thermogravimetry (TG) of polymers — Part 3: Determination of the activation energy using the Ozawa-Friedman plot and analysis of the reaction kinetics
60.60
Plastics — Thermogravimetry (TG) of polymers — General principles
95.99
Plastics — Thermomechanical analysis (TMA) — Part 1: General principles
95.99
Plastics — Thermomechanical analysis (TMA) — Part 1: General principles
95.99
Plastics — Thermomechanical analysis (TMA) — Part 1: General principles
60.60
Plastics — Thermomechanical analysis (TMA) — Part 2: Determination of coefficient of linear thermal expansion and glass transition temperature
95.99
Plastics — Thermomechanical analysis (TMA) — Part 2: Determination of coefficient of linear thermal expansion and glass transition temperature
60.60
Plastics — Thermomechanical analysis (TMA) — Part 3: Determination of penetration temperature
95.99
Plastics — Thermomechanical analysis (TMA) — Part 3: Determination of penetration temperature
90.60
Plastics — Determination of the fluidity of plastics using capillary and slit-die rheometers
95.99
Plastics — Determination of the fluidity of plastics using capillary and slit-die rheometers
95.99
Plastics — Determination of the fluidity of plastics using capillary and slit-die rheometers
95.99
Plastics — Determination of the fluidity of plastics using capillary and slit-die rheometers
60.60
Plastics — Determination of viscosity using a falling-ball viscometer — Part 1: Inclined-tube method
95.99
Plastics — Determination of viscosity using a falling-ball viscometer — Part 1: Inclined-tube method
90.93
Plastics — Determination of the total luminous transmittance of transparent materials — Part 1: Single-beam instrument
95.99
Plastics — Determination of the total luminous transmittance of transparent materials — Part 1: Single-beam instrument
90.93
Plastics — Determination of the total luminous transmittance of transparent materials — Part 2: Double-beam instrument
95.99
Plastics — Determination of the total luminous transmittance of transparent materials — Part 2: Double-beam instrument
60.60
Plastics — Determination of haze for transparent materials
95.99
Plastics — Determination of haze for transparent materials — Technical Corrigendum 1
60.60
Plastics — Determination of haze for transparent materials
60.60
Determination of the ultimate aerobic biodegradability of plastic materials in an aqueous medium — Method by measuring the oxygen demand in a closed respirometer — Technical Corrigendum 1
95.99
Plastics — Determination of the ultimate anaerobic biodegradation of plastic materials in an aqueous system — Method by measurement of biogas production
95.99
Plastics — Determination of the ultimate anaerobic biodegradation of plastic materials in an aqueous system — Method by measurement of biogas production — Technical Corrigendum 1
95.99
Determination of the ultimate aerobic biodegradability of plastic materials under controlled composting conditions — Method by analysis of evolved carbon dioxide — Part 1: General method
95.99
Determination of the ultimate aerobic biodegradability of plastic materials under controlled composting conditions — Method by analysis of evolved carbon dioxide — Part 1: General method — Technical Corrigendum 1
95.99
Determination of the ultimate aerobic biodegradability and disintegration of plastic materials under controlled composting conditions — Method by analysis of evolved carbon dioxide
95.99
Determination of the ultimate aerobic biodegradability and disintegration of plastic materials under controlled composting conditions — Method by analysis of evolved carbon dioxide — Amendment 1: Use of activated vermiculite instead of mature compost
95.99
Plastics — Determination of caprolactam and its cyclic and linear oligomers by HPLC
95.99
Plastics — Determination of caprolactam and its cyclic and linear oligomers by HPLC
95.99
Plastics — Determination of caprolactam and its cyclic and linear oligomers by HPLC
90.93
Plastics — Determination of water content
95.99
Plastics — Determination of water content
95.99
Plastics — Determination of water content
95.99
Plastics — Determination of water content
95.99
Plastics — Determination of water content
90.60
Plastics — Determination of the ultimate anaerobic biodegradation and disintegration under high-solids anaerobic-digestion conditions — Method by analysis of released biogas
95.99
Plastics — Determination of the ultimate anaerobic biodegradation and disintegration under high-solids anaerobic-digestion conditions — Method by analysis of released biogas — Technical Corrigendum 1
95.99
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 1: General principles
95.99
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 1: General principles — Technical Corrigendum 1
95.99
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 1: General principles
95.99
Plastics — Determination of average molecular weight and molecular weight distribution of polymers using size-exclusion chromatography — Part 1: General principles
90.93
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 2: Universal calibration method
95.99
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 2: Universal calibration method
95.99
Plastics — Determination of average molecular weight and molecular weight distribution of polymers using size-exclusion chromatography — Part 2: Universal calibration method
90.93
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 3: Low-temperature method
95.99
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 3: Low-temperature method
95.99
Plastics — Determination of average molecular weight and molecular weight distribution of polymers using size-exclusion chromatography — Part 3: Low-temperature method
90.93
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 4: High-temperature method
95.99
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 4: High-temperature method
95.99
Plastics — Determination of average molecular weight and molecular weight distribution of polymers using size-exclusion chromatography — Part 4: High-temperature method
90.93
Plastics — Determination of average molecular mass and molecular mass distribution of polymers using size-exclusion chromatography — Part 5: Method using light-scattering detection
95.99
Plastics — Determination of average molecular weight and molecular weight distribution of polymers using size-exclusion chromatography — Part 5: Light-scattering method
90.93
Plastics — Determination of drawing characteristics of thermoplastics in the molten state
95.99
Plastics — Determination of drawing characteristics of thermoplastics in the molten state
60.60
Plastics — Determination of the degree of disintegration of plastic materials under defined composting conditions in a pilot-scale test
95.99
Specifications for compostable plastics
95.99
Plastics — Determination of image clarity (degree of sharpness of reflected or transmitted image)
90.93
Plastics — Determination of yellowness index and change in yellowness index
90.60
Plastics — Determination of the ultimate aerobic biodegradability in soil by measuring the oxygen demand in a respirometer or the amount of carbon dioxide evolved
95.99
Plastics — Determination of specific volume as a function of temperature and pressure (pvT diagram) — Piston apparatus method
90.92
Plastics — Determination of specific volume as a function of temperature and pressure, pvT diagram — Piston apparatus method
40.60
Plastics — Model-free kinetics based on the non-linear incremental isoconversional method
30.20
Plastics — Determination of average molecular mass and mixture ratio of poly(ethylene glycol) and its derivatives by MALDI-TOF-MS
90.93
Plastics — Temperature modulated DSC — Part 1: General principles
90.93
Plastics — Temperature modulated DSC — Part 2: Measurement of specific heat capacity cp
60.60
Plastics — Temperature modulated DSC — Part 3: Separation of overlapping thermal transitions
60.60
Plastics — Determination of the degree of disintegration of plastic materials under simulated composting conditions in a laboratory-scale test
95.99
Plastics — Determination of the transient extensional viscosity of polymer melts
95.99
Plastics — Determination of the transient extensional viscosity of polymer melts
60.60
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 1: General principles
95.99
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 1: General principles
95.99
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 1: General principles
60.60
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 2: Transient plane heat source (hot disc) method
95.99
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 2: Transient plane heat source (hot disc) method
95.99
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 2: Transient plane heat source (hot disc) method
60.60
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 3: Temperature wave analysis method
90.93
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 4: Laser flash method
95.99
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 4: Laser flash method
95.99
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 4: Light flash method
60.60
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 5: Results of interlaboratory testing of poly(methyl methacrylate) samples
60.60
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 6: Comparative method for low thermal conductivities using a temperature-modulation technique
90.93
Plastics — Determination of thermal conductivity and thermal diffusivity — Part 7: Transient measurement of thermal effusivity using a plane heat source
60.60
Plastics — Elasticity index — Determination of elastic property of melts
60.60
Plastics — Fast differential scanning calorimetry (FSC) — Chip calorimetry
60.60
Plastics — Homopolymer and copolymer resins of vinyl chloride — Determination of residual vinyl chloride monomer by gas-chromatographic analysis of dry powder
90.93
Plastics — Production quality control — Statistical method for using single measurements
90.93
Plastics — Determination of total luminous transmittance and reflectance
60.60
Determination of certain substances in electrotechnical products — Part 11: Tris (2-chloroethyl) phosphate (TCEP) in plastics by gas chromatography-mass spectrometry (GC-MS) and liquid chromatography-mass spectrometry (LC-MS)
60.60

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