Solution: PVC Plasticizer
PVC Plasticizers are additives used to enhance the flexibility, extensibility, and low-temperature resistance of PVC materials. They work by increasing the molecular spacing between polymer chains, making the material more flexible. Our NAN YA Plastics brand PVC plasticizers offer excellent plasticizing effects and processing performance, improving the flexibility, durability, and processing stability of PVC products, and are widely used in industries such as plastic pipes, films, cables, and flooring.
-
NAN YA SD-8031D
Overview
Liquid octyl tin stabilizer
• Thiol-based stabilizer compliant with food packaging requirements.
• Good initial coloration.
• Good thermal stability, suitable for long-duration high-temperature processing.
• Blending and processing with ABS and MBS can achieve better thermal stability and processability.
• When used together with internal and external lubricants during processing, a synergistic effect can be achieved for better performance.
• No sulfur contamination.Brand
NAN YA
Model No
SD-8031D
Application
• Thiol-based stabilizer compliant with food packaging requirements.
• Good initial coloration.
• Good thermal stability, suitable for long-duration high-temperature processing.
• Blending and processing with ABS and MBS can achieve better thermal stability and processability.
• When used together with internal and external lubricants during processing, a synergistic effect can be achieved for better performance.
• No sulfur contamination.Specifications
Appearance Clear liquid Refractive Index (30℃) 1.4987 ± 0.0020 Specific Gravity (25℃) 14.4 ± 0.4 Viscosity (25℃) cps 300 max -
NAN YA SD-4017BT
Overview
Liquid Butyl Tin Stabilizer
• Good thermal stability, suitable for long-duration high-temperature processing.
• Good transparency and initial coloration.
• Good resistance to sulfur contamination.
• Blending and processing with ABS and MBS can achieve better thermal stability and processability.
• When used together with internal and external lubricants during processing, a synergistic effect can be achieved for better performance.Brand
NAN YA
Model No
SD-4017BT
Application
• Good thermal stability, suitable for long-duration high-temperature processing.
• Good transparency and initial coloration.
• Good resistance to sulfur contamination.
• Blending and processing with ABS and MBS can achieve better thermal stability and processability.
• When used together with internal and external lubricants during processing, a synergistic effect can be achieved for better performance.Specifications
Appearance Clear liquid Refractive Index (30℃) 1.502 – 1.508 Specific Gravity (25℃) 14.6 – 15.6 Viscosity (25℃) cps 250 max -
NAN YA PCX-05CEA
Overview
Putty-type calcium-zinc stabilizer
• Non-toxic, environmentally friendly stabilizer.
• Excellent thermal stability and transparency
• Good plasticization and dispersibility.
• When used together with epoxy, excellent results can be achieved.
• No sulfur contamination.Brand
NAN YA
Model No
PCX-05CEA
Application
• Non-toxic, environmentally friendly stabilizer.
• Excellent thermal stability and transparency
• Good plasticization and dispersibility.
• When used together with epoxy, excellent results can be achieved.
• No sulfur contamination.Specifications
Appearance Clear liquid Refractive Index (30℃) 1.4987 ± 0.0020 Specific Gravity (25℃) 14.4 ± 0.4 Viscosity (25℃) cps 300 max -
NAN YA LQX-39PT
Overview
Liquid barium zinc stabilizer
• An environmentally friendly stabilizer free of nonylphenol and dipropylene glycol (2P free).
• Can replace cadmium-barium-zinc liquid stabilizer products.
• High-concentration self-slipping stabilizer that can reduce stabilizer usage by 30–40%.
• Has excellent heat resistance and initial coloring.
• When used together with epoxy, excellent results can be achieved.Brand
NAN YA
Model No
LQX-39PT
Application
• An environmentally friendly stabilizer free of nonylphenol and dipropylene glycol (2P free).
• Can replace cadmium-barium-zinc liquid stabilizer products.
• High-concentration self-slipping stabilizer that can reduce stabilizer usage by 30–40%.
• Has excellent heat resistance and initial coloring.
• When used together with epoxy, excellent results can be achieved.Specifications
Appearance Clear liquid with orange-yellow to orange-red color Refractive Index (30℃) 1.4870 ± 0.005 Specific Gravity (25℃) 1.04 ± 0.03 Viscosity (25℃) cps 300 max -
NAN YA LQX-19T
Overview
Liquid barium zinc stabilizer
• Good initial coloration, suitable for white high-temperature vulcanized products.
• Can replace cadmium-barium-zinc liquid stabilizer products.
• Self-lubricating stabilizer, can be used alone; generally, no additional powder stabilizer or lubricant is needed during processing.
• When used together with epoxy, excellent results can be achieved.Brand
NAN YA
Model No
LQX-19T
Application
• Good initial coloration, suitable for white high-temperature vulcanized products.
• Can replace cadmium-barium-zinc liquid stabilizer products.
• Self-lubricating stabilizer, can be used alone; generally, no additional powder stabilizer or lubricant is needed during processing.
• When used together with epoxy, excellent results can be achieved.Specifications
Appearance Clear liquid with orange-yellow to orange-red color Refractive Index (30℃) 1.4795 – 1.4895 Specific Gravity (25℃) 1.041 – 1.081 Viscosity (25℃) cps 250 max -
NAN YA TOTM
Overview
PVC Plasticizer
TOTM is synthesized through the esterification of 2-ethylhexanol and trimellitic anhydride. It features low volatility, low migration, excellent electrical resistance, and outstanding heat resistance. When used in wire and cable applications, TOTM can meet the UL 62 105°C temperature rating in the United States. In PVC plastisols, TOTM-based formulations exhibit lower viscosity than those using DIDP under the same softness conditions. In terms of stability, compared with DEHP, TOTM plastisols show less variation, indicating better long-term stability.Brand
NAN YA
Model No
TOTM
Application
TOTM is synthesized through the esterification of 2-ethylhexanol and trimellitic anhydride. It features low volatility, low migration, excellent electrical resistance, and outstanding heat resistance. When used in wire and cable applications, TOTM can meet the UL 62 105°C temperature rating in the United States. In PVC plastisols, TOTM-based formulations exhibit lower viscosity than those using DIDP under the same softness conditions. In terms of stability, compared with DEHP, TOTM plastisols show less variation, indicating better long-term stability.Chemical Name
Tris(2-ethylhexyl) trimellitate / TOTM / Trioctyl trimellitate / TEMTM
Specifications
CAS 3319-31-1 Color (APHA) 50 max Acid Value (mg KOH/g) 0.10 max Ester Content (Wt%) 99.0 min Insulation Resistance 30°C (Ω-cm) 3.0 X 1011 Heat Loss 125℃ ± 3℃ X 3hrs (Wt%) 0.10 max Specific Gravity 20/20℃ 0.991 ± 0.003 Refractive Index 25℃ 1.484 ± 0.003 Moisture (Wt%) 0.05 max 0.05 max 20.0 × 10¹¹ Phthalate Content (Wt%) 0.015 max Saponification value (mg KOH/g) 308 ± 5 Antioxidant (Wt%) 0.35 ± 0.05 Phthalate Content (ppm) 350 -
NAN YA DOTP
Overview
PVC Plasticizer
DOTP is synthesized by esterification of isooctanol and terephthalic acid. It is a non-phthalate plasticizer and an environmentally friendly plasticizer. It is not listed as a restricted chemical substance in EU countries. DOTP has good compatibility with PVC, excellent processing performance, and offers superior thermal aging stability.Brand
NAN YA
Model No
DOTP
Application
DOTP is synthesized by esterification of isooctanol and terephthalic acid. It is a non-phthalate plasticizer and an environmentally friendly plasticizer. It is not listed as a restricted chemical substance in EU countries. DOTP has good compatibility with PVC, excellent processing performance, and offers superior thermal aging stability.Chemical Name
Diisooctyl Terephthalate (DOTP) / Di-2-Ethylhexyl Terephthalate / Dioctyl Terephthalate
Specifications
CAS 6422-86-2 Color (APHA) 25 max Acid Value (mg KOH/g) 0.03 max Ester Content (Wt%) 99.5 min Heat Loss 125℃ ± 3℃ X 3hrs (Wt%) 0.10 max Specific Gravity 20/20℃ 0.984 ± 0.003 Phthalate Content (Wt%) 0.015 max Refractive Index 25℃ 1.488 ± 0.003 Moisture (Wt%) 0.05 max Insulation Resistance 30°C (Ω-cm) 20.0 × 10¹¹ -
NAN YA DINP
Overview
PVC Plasticizer
DINP (Diisononyl Phthalate) is produced by esterifying isononanol with phthalic anhydride. In many aspects, DINP’s plasticizing properties are similar to those of DEHP. However, DINP’s low volatility gives it advantages in certain applications. As a general-purpose plasticizer, compared to DEHP, DINP exhibits lower plasticizing efficiency, lower migration, lower water extraction rate, and slightly higher gelation temperature and electrical resistance. Its low volatility not only helps extend product lifespan but also reduces evaporation and volatilization during processing.Brand
NAN YA
Model No
DINP
Application
DINP (Diisononyl Phthalate) is produced by esterifying isononanol with phthalic anhydride. In many aspects, DINP’s plasticizing properties are similar to those of DEHP. However, DINP’s low volatility gives it advantages in certain applications. As a general-purpose plasticizer, compared to DEHP, DINP exhibits lower plasticizing efficiency, lower migration, lower water extraction rate, and slightly higher gelation temperature and electrical resistance. Its low volatility not only helps extend product lifespan but also reduces evaporation and volatilization during processing.Chemical Name
Diisononyl phthalate (DINP)
Specifications
CAS 68515-48-0 ; 28553-12-0 Color (APHA) 25 max Acid Value (mg KOH/g) 0.05 max Ester Content (Wt%) 99.6 min Insulation Resistance 30°C (Ω-cm) 3.0 X 1011 Heat Loss 125℃ ± 3℃ X 3hrs (Wt%) 0.10 max Specific Gravity 20/20℃ 0.978 ± 0.003 Refractive Index 25℃ 1.484 ± 0.003 Moisture (Wt%) 0.05 max -
NAN YA DEHP
Overview
PVC Plasticizer
DEHP (DOP) is produced by the esterification of isooctanol with phthalic anhydride. DEHP has excellent compatibility with PVC, high plasticizing efficiency, and combines the average performance characteristics of various plasticizers. It is the most widely used plasticizer in PVC processing. Specifications include General Grade A, Insulation Grade B, and Glove Grade C.
Brand
NAN YA
Model No
DEHP
Application
DEHP (DOP) is produced by the esterification of isooctanol with phthalic anhydride. DEHP has excellent compatibility with PVC, high plasticizing efficiency, and combines the average performance characteristics of various plasticizers. It is the most widely used plasticizer in PVC processing. Specifications include General Grade A, Insulation Grade B, and Glove Grade C.
Chemical Name
Diisooctyl Phthalate / DEPH / DOP / Di-2-Ethylhexyl Phthalate
Specifications
CAS 117-817 Color (APHA) 25 max Acid Value (mg KOH/g) 0.05 max Ester Content (Wt%) 99.6 min Insulation Resistance 30°C (Ω-cm) 3.0 X 1011 Heat Loss 125℃ ± 3℃ X 3hrs (Wt%) 0.10 max Specific Gravity 20/20℃ 0.986 ± 0.003 Refractive Index 25℃ 1.485 ± 0.003 Moisture (Wt%) 0.05 max -
NAN YA DEHA
Overview
PVC Plasticizer
DOA is produced by esterifying 2-ethylhexanol with adipic acid and is a non-phthalate plasticizer. It offers excellent low-temperature properties and favorable characteristics in PVC plastisols, making it the most widely used cold-resistant plasticizer. Compared to DEHP, DOA has a higher volatility under similar softness conditions. Due to its relatively low electrical resistance, DOA is suitable for antistatic processing applications such as conveyor belts and flooring materials.
Complies with FDA: 21 CFR 175.105Brand
NAN YA
Model No
DEHA
Application
DOA is produced by esterifying 2-ethylhexanol with adipic acid and is a non-phthalate plasticizer. It offers excellent low-temperature properties and favorable characteristics in PVC plastisols, making it the most widely used cold-resistant plasticizer. Compared to DEHP, DOA has a higher volatility under similar softness conditions. Due to its relatively low electrical resistance, DOA is suitable for antistatic processing applications such as conveyor belts and flooring materials.
Complies with FDA: 21 CFR 175.105Chemical Name
Di-(2-Ethylhexyl) Adipate / DEHA / Dioctyl Adipate / DOA
Specifications
CAS 84-71-9 Color (APHA) 25 max Acid Value (mg KOH/g) 0.05 max Ester Content (Wt%) 99.5 min Heat Loss 125℃ ± 3℃ X 3hrs (Wt%) 0.10 max Specific Gravity 20/20℃ 0.958 ± 0.003 Refractive Index 25℃ 1.460 ± 0.003 Moisture (Wt%) 0.05 max Phthalate Content (Wt%) 0.015 max -
NAN YA 911P
Overview
PVC Plasticizer
911P is produced by esterifying C9~C11 mixed alcohol and Phthalic Anhydride. 911P has low volatility and excellent cold resistance. Its cold resistance is equivalent to that of a DEHP/ DOA mixture at 60/40WT%. Regarding wire and cable heat resistance, 911P has durable mechanical characteristics and excellent cold resistance. Mixing 911P with TOTM can provide a more economical way to meet the U.S.’s UL 62 105℃ class cable requirement. 911P’s low volatility is especially recommended for “non-fogging” products, such as leather coats, spring cushions for cars, etc.Brand
NAN YA
Model No
911P
Application
911P is produced by esterifying C9~C11 mixed alcohol and Phthalic Anhydride. 911P has low volatility and excellent cold resistance. Its cold resistance is equivalent to that of a DEHP/ DOA mixture at 60/40WT%. Regarding wire and cable heat resistance, 911P has durable mechanical characteristics and excellent cold resistance. Mixing 911P with TOTM can provide a more economical way to meet the U.S.’s UL 62 105℃ class cable requirement. 911P’s low volatility is especially recommended for “non-fogging” products, such as leather coats, spring cushions for cars, etc.Chemical Name
Di-(C9-C11) Phthalate (911P)
Specifications
CAS 68515-43-5 Color (APHA) 25 max Acid Value (mg KOH/g) 0.05 max Ester Content (Wt%) 99.5 min Heat Loss 125℃ ± 3℃ X 3hrs (Wt%) 0.10 max Specific Gravity 20/20℃ 0.960 ± 0.003 Refractive Index 25℃ 1.481 ± 0.003 Moisture (Wt%) 0.05 max Acid Value after Heating 125 ℃ ± 3 ℃ × 3 hrs (mg KOH/g) 0.20 max
