Technical articles

A Complete Guide to Selecting Epoxy Curing Systems: Amines vs. Anhydrides vs. Latent Curing — with Aladdin’s Recommended Selection Table

The Role and Nature of Curing Agents

Curing agents (also commonly referred to as hardeners or crosslinkers) are key components that chemically react with reactive functional groups in a resin, converting the system from a flowable/applicable state into a three-dimensional crosslinked network that is difficult to remelt and offers mechanical strength as well as heat and chemical resistance.

Using the most common two-component epoxy system as an example: epoxy resin typically does not “harden on its own” at room temperature. Curing and final shaping are achieved only after adding a curing agent that can react with epoxy groups (e.g., amines, anhydrides, polyamides, etc.).

A curing agent determines not only whether the system can cure, but also:

(1) Cure speed (working time/pot life)

(2) Exotherm and risks associated with thick pours

(3) Heat resistance (Tg/heat deflection temperature trend)

(4) Toughness, adhesion, and water/chemical resistance

(5) Color and yellowing, odor and irritation

(6) Suitability for low-temperature / humid environments

Strict mix ratios should be calculated based on the resin’s epoxy equivalent weight (EEW) and the curing agent’s amine hydrogen equivalent weight (AHEW).

EEW can vary significantly among different resins (grade/model/diluent content), and AHEW also differs across curing agents. Therefore, the phr of a given curing agent is not universally applicable to all epoxy resins.

Common Conversion Approach (Epoxy–Amine Systems)

(1) Let resin EEW = g/eq (grams per epoxy equivalent)

(2) Let curing agent AHEW = g/eq (grams per equivalent of active hydrogen)

(3) Under stoichiometric conditions, the curing agent dosage (per 100 g of resin) can be approximated as:

Curing agent phr ≈ 100 × AHEW / EEW

Note: 

In practice, formulations often deviate moderately from stoichiometry to meet requirements for toughness, heat resistance, viscosity, cure speed, etc. Follow the supplier’s TDS/formulation recommendations.

If Part A contains reactive diluents, multiple epoxy components, or a high filler loading, the effective EEW of Part A should be used as the basis (or follow the recommended mix ratio in the supplier’s TDS).


Common Application Scenarios for Curing Agents (Epoxy Systems)

1. Bonding/repair (room-temperature application): focus on pot life, early strength, low-temperature cure, and substrate wetting → commonly use modified aliphatic amines, polyamides, and amine adducts; accelerators can be added when faster cure is required

2. Casting/potting (thick pours): focus on exotherm, cracking risk, shrinkage, and transparency → prefer low-exotherm/long pot life systems (modified amines, adducts, and selected anhydrides/latent systems)

3. Coatings/flooring: focus on leveling, surface dry, abrasion resistance, and chemical resistance → aliphatic amines / cycloaliphatic amines / polyamide systems are common; careful selection is needed for low-temperature and high-humidity conditions

4. Heat-resistant structural adhesives/composites: focus on Tg, heat resistance, and fatigue resistance → aromatic amines, selected anhydrides, or other high-performance systems (typically heat-cured)

5. Electronic encapsulation / one-component storage: focus on storage stability and processing window → latent curing systems are common (e.g., DICY with imidazole/tertiary-amine accelerators; imidazoles are often used as accelerators, and achieving true latency typically requires modification/encapsulation)


Comparison of Major Epoxy Curing-Agent Categories

Category

Typical Cure Temperature

Working Time / Pot Life (Relative)

Exotherm Risk (Relative)

Typical Advantages

Typical Limitations

Common Applications

Representative Products

Aliphatic amines / polyamines

Room temperature–moderate

Short–medium

High

Room-temperature cure; fast early strength

Strong odor/irritation; high exotherm in thick pours; surface appearance can be affected by moisture

Fast bonding, repairs, room-temperature casting/coatings

EDA, DETA, TETA, TEPA, PEPA, DPTA

Modified aliphatic amines / amine adducts

Room temperature–moderate

Medium–long

Medium

Reduced odor/volatility; more user-friendly pot life; better appearance and humidity tolerance

Upper heat-resistance limit typically lower than high-performance systems

Flooring coatings, structural adhesives, potting/encapsulation (processability-first)

Amine adducts; modified aliphatic amine systems

Polyamide curing agents

Room temperature–moderate

Medium–long

Low–medium

Good toughness and adhesion; wide processing tolerance

Heat resistance generally lower than aromatic amine/anhydride systems

Anticorrosion coatings, adhesives, flooring

Polyamide resin

Cycloaliphatic amines

Room temperature–moderate

Medium

Medium

Better color; improved weathering/anti-yellowing; relatively lower odor

Higher cost; cure speed is formulation-dependent

Premium coatings, flooring, composite adhesives

IPDA, 1,3-BAC, PACM/MACM

Aromatic amines

Moderate–high (often heat-cured)

Medium

Medium

High heat resistance / high Tg potential; high mechanical strength

Often require heat curing; higher demands on color/toxicology/process control

High-temperature structural adhesives, electronic materials, composites

DDM, DDS, MXDA

Anhydride curing agents

Moderate–high (often heat-cured)

Long

Low–medium

Low viscosity; relatively mild exotherm; good heat resistance and electrical properties

Often require accelerators; sensitive to cure schedule

Electronic potting/encapsulation, insulation, laminates

HHPA, MTHPA, MHHPA, PA

Latent curing systems

Room-temperature storage; heat-activated cure

Long (storage-stable)

System-dependent

Enables one-component storage stability; wide processing window

Requires thermal activation; more complex system design

Electronic packaging, prepregs, one-component adhesives

DICY (with imidazole/tertiary-amine accelerators)

Note — moisture-sensitive surface appearance: Room-temperature amine-cured epoxy systems may develop amine blush (whitening/tackiness) under low-temperature, high-humidity conditions due to reactions with moisture and CO in air. When necessary, control humidity, select low-blush systems, or clean/sand the surface before recoating.


Selection Guide: Practical “Decision Steps”

Step 1: Define Service Conditions and Process

1. Application temperature: room temperature? low temperature (<10 °C)? is heating available?

2. Application thickness: thin coating/bond line, or thick pour/potting?

3. Working time required: 10 minutes, 30 minutes, 2 hours, or longer?

4. Appearance requirements: transparent/light color? is yellowing acceptable?

5. Key performance targets: heat resistance, toughness, water resistance, chemical resistance, electrical performance, etc.

Step 2: Pre-Screen by Category

1. Need fast room-temperature cure: aliphatic amines/polyamines (watch exotherm and irritation)

2. Need longer pot life and gentler processing: modified amines, amine adducts, polyamides

3. Need higher heat resistance: aromatic amines or anhydrides/high-performance systems (often heat-cured)

4. Need one-component / storage stability: latent curing systems

Step 3: Ratio Setting and Verification

1. Use the EEW/AHEW stoichiometric ratio as the starting point

2. Bench-scale validation: gel time, exotherm peak, surface/through dry, hardness/adhesion, water uptake and chemical resistance

3. Fine-tune toward target performance: toughness-first vs heat-resistance-first vs processability-first


Safety and Use Notes

1. Most amines are irritating to skin and the respiratory tract, and some may cause sensitization: wear protective gloves and goggles, and ensure ventilation.

2. Large-batch mixing can generate significant exotherm: avoid mixing large quantities at once; thick pours must be evaluated for heat generation and temperature rise.

3. Follow the SDS/TDS: storage conditions, incompatibilities, and first-aid measures should follow supplier documentation.


Product List of Epoxy Resin Curing Agents and Supporting Accelerator Systems (by Curing System and Application Scenario)

Category

Application Scenario

CAS No.

Aladdin Cat. No.

Product Name

Specification / Purity

Key Features / Application Notes

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Fast bonding/repair; fast-curing casting

107-15-3

E431347

Ethylenediamine solution (explosive precursor)

Industrial grade, ≥75%

High activity; fast room-temp cure; strong odor/irritation and high exotherm—suitable for fast bonding/repair (use PPE)

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Fast bonding/repair; synthesis/R&D

107-15-3

E431349

Ethylenediamine (explosive precursor)

For synthesis

High activity; fast room-temp cure; usable for curing systems/synthesis (note irritation)

Aliphatic amine / polyamine curing agent (fast room-temp cure)

R&D/analytical reference; baseline formulation verification

107-15-3

E112640

Ethylenediamine (explosive precursor)

Standard for GC, ≥99.5% (GC)

High-purity reference; for baseline formulations and impurity-effect evaluation

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Basic formulations/teaching labs; fast-cure systems

107-15-3

E431348

Ethylenediamine (explosive precursor)

Reagent grade

Fast room-temp cure; note short pot life and exotherm risk

Aliphatic amine / polyamine curing agent (fast room-temp cure)

R&D/synthesis; high-purity reference

107-15-3

E112643

Ethylenediamine (explosive precursor)

Distilled grade, ≥99.5%

High purity; for R&D/synthesis and curing-system benchmarking

Aliphatic amine / polyamine curing agent (fast room-temp cure)

High-demand research; impurity-sensitive systems

107-15-3

E431346

Ethylenediamine (explosive precursor)

UltraBio™, ultrapure

Ultrapure; suitable for high-demand research or impurity-sensitive systems

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Fast-cure formulation verification; general lab use

107-15-3

E112642

Ethylenediamine (explosive precursor)

≥99% (GC)

High purity for formulation verification; note volatility and irritation

Aliphatic amine / polyamine curing agent (fast room-temp cure)

General adhesives/casting/coatings (fast pace)

111-40-0

D301794

Diethylenetriamine (DETA)

≥98.5%

Common epoxy amine curing agent; fast early strength, relatively high exotherm (evaluate for thick pours)

Aliphatic amine / polyamine curing agent (fast room-temp cure)

General adhesives/casting/coatings

111-40-0

D100058

Diethylenetriamine (DETA)

≥97%

General room-temp curing; watch pot life and exotherm

Aliphatic amine / polyamine curing agent (fast room-temp cure)

R&D/analytical reference; performance comparison

111-40-0

D100056

Diethylenetriamine (DETA)

Standard for GC, ≥99% (GC)

High-purity reference for analysis/R&D and baseline formulations

Aliphatic amine / polyamine curing agent (fast room-temp cure)

General room-temp cure; bonding/casting

111-40-0

D100059

Diethylenetriamine (DETA)

≥99%

Fast room-temp cure; commonly used for adhesives/casting/coatings

Aliphatic amine / polyamine curing agent (fast room-temp cure)

General cure/modification; bonding/coatings

112-24-3

T418727

Triethylenetetramine (TETA)

≥97% (T)

Polyamine curing agent; fast cure and strength build-up; relatively high exotherm

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Cost-driven formulations; general curing

112-24-3

T278643

Triethylenetetramine (TETA)

≥70%

Economical polyamine source; for general curing/modification

Aliphatic amine / polyamine curing agent (fast room-temp cure)

R&D/analytical reference

112-24-3

T103760

Triethylenetetramine (TETA)

Standard for GC

Analytical/R&D reference; for impurity-effect evaluation

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Teaching/basic experiments

112-24-3

T103762

Triethylenetetramine (TETA)

CP, ≥68%

General grade; suitable for basic experiments and formulation exploration

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Scale-up/industrial formulations

112-24-3

T399199

Triethylenetetramine (TETA)

Industrial grade, ≥60%

Industrial grade; suitable for scale-up and cost-driven formulations

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Scale-up/industrial formulations

112-24-3

T431497

Triethylenetetramine (TETA)

Industrial grade, ≥60%

Industrial grade; suitable for modification and intermediates

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Base material for general curing/modified curing agents

112-57-2

T103795

Tetraethylenepentamine (TEPA)

Industrial grade

Common for polyamine curing/modification; also used to prepare amine adducts/amido-amine base stocks

Aliphatic amine / polyamine curing agent (fast room-temp cure)

Fast bonding/casting; general modification

56-18-8

D155042

3,3′-Diaminodipropylamine (DPTA)

≥98% (GC)

Polyamine curing agent; fast room-temp cure, higher exotherm (evaluate pot life)

Aliphatic amine / polyamine curing agent (process-dependent)

Synthesis/modification; heat-resistant/structural exploration

124-09-4

H103909

1,6-Hexanediamine (HMDA)

AR, ≥99%

Linear diamine; heating/dissolution may be needed to improve processability

Aliphatic amine / polyamine curing agent (process-dependent)

R&D reference; high-purity synthesis/modification

124-09-4

H103910

1,6-Hexanediamine (HMDA)

≥99.5%

High purity; suitable for R&D and comparative validation

Aliphatic amine / polyamine curing agent (process-dependent)

Synthesis/modification; general research

124-09-4

H684455

1,6-Hexanediamine (HMDA)

≥99%

Linear diamine; for intermediates/modification and system research

Aliphatic amine / polyamine curing agent (process-dependent)

Teaching/basic synthesis/system verification

124-09-4

H103908

1,6-Hexanediamine (HMDA)

CP, ≥98%

General grade; suitable for basic verification and teaching

Aliphatic polyamines (mixture/UVCB)

General curing/modification; cost-driven formulations

68131-73-7

P108302

Polyethylenepolyamines

MW, typical 275

UVCB mixture; cost-friendly and broadly applicable (note batch variability)

Aliphatic polyamines (mixture/UVCB)

R&D/formulation exploration

68131-73-7

P1456180

Polyethylenepolyamines

Reagent grade

Reagent-grade UVCB; suitable for R&D and formulation exploration

Polyetheramine curing agents (flexible/low exotherm)

Potting/casting (low exotherm); toughened adhesives

9046-10-0

P108071

Polyetheramine D-230

Average Mn ~230

Good toughening/low-temp performance; milder exotherm; suitable for potting/coatings/adhesives

Polyetheramine curing agents (flexible/low exotherm)

Potting/casting; impact-resistant coatings/adhesives

9046-10-0

P108072

Polyetheramine D-400

Average Mn ~400

Relatively favorable pot life; for toughening, impact resistance, low-temp application

Polyetheramine curing agents (flexible/low exotherm)

Flexible potting; structural toughening/low-modulus systems

9046-10-0

P108073

Polyetheramine D-2000

Average Mn ~2,000

High-molecular-weight flexible amine; significantly lowers modulus and improves toughness

Cycloaliphatic amine curing agents (low odor/weathering)

Premium coatings/flooring; anti-yellowing adhesives

2579-20-6

B153044

1,3-Bis(aminomethyl)cyclohexane (cis/trans mixture)

≥98% (GC)

Better color and weathering; suitable for premium coatings/flooring/adhesives

Cycloaliphatic amine curing agents (low odor/weathering)

Premium coatings/flooring; weather-resistant adhesives

2855-13-2

A104545

Isophorone diamine (IPDA, cis/trans mixture)

≥99%

Classic cycloaliphatic amine; commonly used for weathering/chemical resistance/low-yellowing systems

Cycloaliphatic amine curing agents (low odor/weathering)

Composites/premium coatings; anti-yellowing adhesives

6864-37-5

M158377

4,4′-Methylenebis(2-methylcyclohexylamine) (isomer mixture)

≥99% (GC)

Strong overall performance; excellent anti-yellowing/weathering; suitable for premium coatings/composites/adhesives

Cycloaliphatic amine curing agents (low odor/weathering)

High-performance adhesives/coatings; weathering systems

1761-71-3

M158600

4,4′-Methylenebis(cyclohexylamine) (isomer mixture)

≥97%

Cycloaliphatic diamine; good heat/weathering resistance and balanced mechanical performance

Aromatic amine curing agents (high heat resistance; often heat-cured)

Highly chemical-resistant coatings/adhesives; special low-temp design

1477-55-0

X107227

m-Xylylenediamine (MXDA)

≥99%

Outstanding chemical resistance; for special formulation designs (process verification required)

Aromatic amine curing agents (high heat resistance; often heat-cured)

High-Tg structural materials/composites; high-temp adhesives

101-77-9

D108781

4,4′-Diaminodiphenylmethane

Standard for GC, ≥99% (GC)

Representative high-heat-resistance aromatic amine; typically requires heat curing

Aromatic amine curing agents (high heat resistance; often heat-cured)

High-temperature structural adhesives/composites

101-77-9

D108779

4,4′-Diaminodiphenylmethane

≥97%

High-heat-resistance curing agent; for high-temp structural/heat-resistance needs

Aromatic amine curing agents (high heat resistance; often heat-cured)

Analytical/R&D reference

101-77-9

D108778

4,4′-Diaminodiphenylmethane

Analytical standard

Analytical/R&D reference for high-demand system research

Aromatic amine curing agents (high heat resistance; often heat-cured)

Analytical testing (not a routine formulation raw material)

101-77-9

D141212

4,4′-Diaminodiphenylmethane standard solution

1000 μg/mL, in Purge and Trap Methanol

Standard solution mainly for analytical testing

Aromatic amine curing agents (high heat resistance; often heat-cured)

High-Tg structural and electronic materials

101-77-9

D108780

4,4′-Diaminodiphenylmethane (4,4′-MDA)

≥99%

High-purity aromatic amine; benchmark curing agent for high-Tg/heat-resistant systems

Aromatic amine curing agents (high heat resistance; often heat-cured)

Heat-resistant epoxies; electronics/composites

80-08-0

D434230

4,4′-Diaminodiphenyl sulfone (DDS)

Moligand™, for synthesis

High-heat-resistance aromatic amine; often heat-cured; suitable for high-temp structures/electronic materials

Aromatic amine curing agents (high heat resistance; often heat-cured)

Bio/screening solution use (not typical for epoxy formulations)

80-08-0

D426062

4,4′-Diaminodiphenyl sulfone (DDS)

Moligand™, 10 mM in DMSO

Solution form mainly for screening/research; epoxy formulations typically use the solid form

Aromatic amine curing agents (high heat resistance; often heat-cured)

High-Tg/high-temperature structural materials

80-08-0

D105858

4,4′-Diaminodiphenyl sulfone (DDS)

Moligand™, ≥97%

High-heat-resistance curing agent; a typical choice for high-Tg systems

Aromatic amine curing agents (high heat resistance; often heat-cured)

Analytical/R&D reference

80-08-0

D105859

4,4′-Diaminodiphenyl sulfone (DDS)

Moligand™, analytical standard

Analytical/R&D reference for high-demand system research

Anhydride curing agents (common in electrical/potting; often heat-cured)

Electronic potting/insulation; laminates

85-42-7

C124721

1,2-Cyclohexanedicarboxylic anhydride

≥97%, cis + trans

Low-viscosity anhydride; common for heat/electrical performance (typically with accelerator + heat cure)

Anhydride curing agents (common in electrical/potting; often heat-cured)

Electronic potting/insulation; low-viscosity systems

25550-51-0

M758152

Methylhexahydrophthalic anhydride (MHHPA)

≥80% (mixture of isomers)

Common anhydride; relatively mild exotherm (often with accelerator)

Anhydride curing agents (common in electrical/potting; often heat-cured)

Electronic potting/insulation; more stable-performance grade

25550-51-0

M189092

Methylhexahydrophthalic anhydride (MHHPA)

Isomer mixture, 95%

Higher-content isomer mixture; for more stable performance requirements

Anhydride curing agents (common in electrical/potting; often heat-cured)

Electronic potting/laminates; typically with accelerator

11070-44-3

M138022

Methyltetrahydrophthalic anhydride (isomer mixture)

≥80% (GC)

Common anhydride; sensitive to cure schedule—follow TDS and validate process

Anhydride curing agents (general)

General heat curing; synthesis/intermediates

85-44-9

P1493009

Phthalic anhydride

≥90%

Classic anhydride; common general grade (use with accelerator and appropriate cure schedule)

Anhydride curing agents (general)

R&D/high-purity reference

85-44-9

P116466

Phthalic anhydride

Guaranteed reagent, ≥99%

High-purity reference; suitable for R&D/analysis

Anhydride curing agents (general)

R&D/traceability requirements

85-44-9

P116468

Phthalic anhydride

ACS

ACS grade; suitable for R&D and traceability needs

Anhydride curing agents (general)

R&D/high-purity reference

85-44-9

P1372019

Phthalic anhydride

≥99%

High purity; suitable for formulation research and performance evaluation

Anhydride curing agents (common in electrical/potting; often heat-cured)

Electronic potting/insulation; laminates

935-79-5

C123346

cis-1,2,3,6-Tetrahydrophthalic anhydride

≥97%

Anhydride curing agent; common for electrical insulation/potting/lamination (often with accelerator)

Latent curing agent (one-component/storage-stable)

One-component epoxy; electronic packaging/prepregs

461-58-5

D100429

Dicyandiamide (DCD)

≥98%

Typical latent curing agent; stable at room temperature; heat-activated curing

Latent curing agent (one-component/storage-stable)

One-component epoxy; R&D reference

461-58-5

D100426

Dicyandiamide (DCD)

≥99%

High-purity latent curing agent; suitable for impurity-sensitive system research

Accelerator / co-curing agent (tertiary amine/phenolic)

Accelerate anhydride/amine cure; low-temp cure/surface dry

90-72-2

T106577

2,4,6-Tris(dimethylaminomethyl)phenol (DMP-30)

≥95%

Classic accelerator; small additions for rate control and improved low-temp cure/surface dry

Accelerator / co-curing agent (tertiary amine/phenolic)

Accelerated curing (cost-driven version)

90-72-2

T501320

2,4,6-Tris(dimethylaminomethyl)phenol (DMP-30)

≥80%

Economical accelerator; for cost-driven formulations (consistency verification recommended)

Accelerator / co-curing agent (tertiary amine)

Cure rate control; improve surface dry and low-temp response

103-83-3

D110950

N,N-Dimethylbenzylamine

≥99%

Common tertiary-amine accelerator; used for rate control in amine/anhydride systems

Accelerator / co-curing agent (tertiary amine)

Cure rate control; basic formulation exploration

103-83-3

D110949

N,N-Dimethylbenzylamine

CP, ≥98%

General accelerator; suitable for basic formulation exploration and teaching

Accelerator / co-curing agent (amino amine)

Co-curing/acceleration; improve low-temp cure

104-78-9

D105332

3-(Diethylamino)propylamine

≥99%

Provides both reactive and catalytic sites; often used in small amounts for co-curing/acceleration

Accelerator / co-curing agent (amino amine)

Co-curing/acceleration; general rate control

104-78-9

D615689

3-(Diethylamino)propylamine

≥97%

For co-curing/acceleration; improves rate control and adhesion performance

Accelerator / co-curing agent (amino amine)

Co-curing/acceleration; adjust surface dry/adhesion

109-55-7

D110909

3-(Dimethylamino)propylamine (DMPDA)

≥99%

Combines curing and catalytic behavior; use in small amounts per TDS

Accelerator / co-curing agent (small-molecule amine/reaction control)

Reaction control/modification; synthesis/R&D reference

109-89-7

D110465

Diethylamine

Standard for GC, ≥99.5% (GC)

Small secondary amine; more commonly used for modification/reaction control and R&D reference (not recommended as a sole primary curing agent)

Accelerator / co-curing agent (small-molecule amine/reaction control)

Synthesis/R&D; formulation comparison

109-89-7

D110470

Diethylamine

ACS, ≥99%

Common small-molecule amine; for synthesis/modification or system adjustment (note volatility and safety)

Accelerator / co-curing agent (small-molecule amine/reaction control)

Synthesis/R&D; analytical-grade reference

109-89-7

D110466

Diethylamine

AR, ≥99% (GC)

High-purity reference; suitable for R&D and comparative validation

Accelerator / co-curing agent (small-molecule amine/reaction control)

Synthesis/R&D; high-purity reference

109-89-7

D110469

Diethylamine

Distilled grade, ≥99.5%

Distilled grade improves repeatability; for R&D and reaction-control use

Imidazole curing/accelerator (latent/fast)

One-component/latent systems; heat-cure acceleration

931-36-2

E104846

2-Ethyl-4-methylimidazole

≥96%

Common imidazole for acceleration/latent systems; improves cure efficiency and heat-resistance potential

Imidazole curing/accelerator (latent/fast)

Powder coatings/electronic adhesives; heat-cure acceleration

693-98-1

M104839

2-Methylimidazole

≥98%

Common imidazole accelerator; dosage-sensitive—formulation validation recommended

Imidazole curing/accelerator (latent/fast)

Heat-cure systems; improved cure efficiency

670-96-2

P124054

2-Phenylimidazole

≥98%

Imidazole accelerator; often used in heat-cure systems to increase cure speed

Thiol fast-cure systems (ultrafast/low-temp fast cure)

Ultrafast room-temp adhesives; low-temp rapid repair

7575-23-7

P160158

Pentaerythritol tetrakis(3-mercaptopropionate)

≥90% (T)

Thiol component for ultrafast/low-temp fast curing (often with accelerator systems)

Thiol fast-cure systems (ultrafast/low-temp fast cure)

Ultrafast cure adhesives; high-reactivity formulation

7575-23-7

P463020

Pentaerythritol tetrakis(3-mercaptopropionate)

≥95%

Higher-content thiol ester; suitable for fast-cure formulation development and benchmarking

Other curing-agent systems (polyurethane isocyanates)

PU adhesives/coatings/foams (non-epoxy system)

26471-62-5

T135411

Toluene diisocyanate (2,4/2,6) (TDI)

≥98% (GC)

PU curing agent (isocyanate); moisture-sensitive—pay attention to safety and dry conditions


Categories: Technical articles
Explore topics: Curing Agents

Da — when not otherwise indicated, molecular weight units are daltons.   Mw — weight-average molecular weight.   Mn — number-average molecular weight.

Products are supplied for research and development use only. Not for use in humans, animals, diagnosis, or therapy.

Cite this article

Aladdin Scientific. "A Complete Guide to Selecting Epoxy Curing Systems: Amines vs. Anhydrides vs. Latent Curing — with Aladdin’s Recommended Selection Table" Aladdin Knowledge Base, updated Dec 22, 2025. https://www.aladdinsci.com/us_en/faqs/a-complete-guide-to-selecting-epoxy-curing-systems-en.html
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