Search Results
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Application of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) as a Curing Agent in Epoxy Resins
Application of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) as a Curing Agent in Epoxy Resins Introduction Epoxy resins are widely utilized thermosetting polymers due to their excellent mechanical strength, chemical resistance, adhesion, and electrica...
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Development of High-Performance Composites Based on N-Cyclohexyl-dipropylenetriamine (CHAPAPA)
Development of High-Performance Composites Based on N-Cyclohexyl-dipropylenetriamine (CHAPAPA) Introduction In recent years, the demand for high-performance composite materials has surged across various industries, including aerospace, automotive, e...
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Performance Evaluation of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) as a Catalyst in Polyurethane Systems
Performance Evaluation of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) as a Catalyst in Polyurethane Systems 1. Introduction Polyurethanes (PUs) represent one of the most versatile classes of polymers, widely used across industries including automotiv...
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Crosslinking Behavior of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Electronic Encapsulation Adhesives
Crosslinking Behavior of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Electronic Encapsulation Adhesives Introduction In the rapidly evolving domain of electronic packaging and encapsulation, the demand for high-performance adhesives with superior...
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Optimization of Heat-Resistant Coating Formulations Using N-Cyclohexyl-dipropylenetriamine (CHAPAPA)
Optimization of Heat-Resistant Coating Formulations Using N-Cyclohexyl-dipropylenetriamine (CHAPAPA) 1. Introduction Heat-resistant coatings are essential in industries such as aerospace, automotive, petrochemical processing, and industrial manufact...
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Suitability of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Resin Systems for Wind Turbine Blades
Suitability of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Resin Systems for Wind Turbine Blades 1. Introduction The rapid expansion of renewable energy systems has significantly increased the demand for high-performance composite materials, parti...
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Adhesion Strength and Aging Resistance of Adhesives Containing N-Cyclohexyl-dipropylenetriamine (CHAPAPA)
Adhesion Strength and Aging Resistance of Adhesives Containing N-Cyclohexyl-dipropylenetriamine (CHAPAPA) 1. Introduction The performance of adhesives in industrial applications is determined by multiple factors, including initial bonding strength,...
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Influence of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) on Interfacial Properties of Carbon Fiber Composites
Influence of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) on Interfacial Properties of Carbon Fiber Composites Introduction Carbon fiber-reinforced polymer (CFRP) composites have become indispensable materials in aerospace, automotive, wind energy, an...
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Functional Application of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in 3D Printing Photocurable Resins
Functional Application of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in 3D Printing Photocurable Resins Introduction The rapid advancement of additive manufacturing, particularly stereolithography (SLA), digital light processing (DLP), and continuou...
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Rheological and Curing Characteristics of Waterborne Epoxy Systems Modified with N-Cyclohexyl-dipropylenetriamine (CHAPAPA)
Rheological and Curing Characteristics of Waterborne Epoxy Systems Modified with N-Cyclohexyl-dipropylenetriamine (CHAPAPA) 1. Introduction Waterborne epoxy resins have gained increasing attention in the field of polymer science and industrial coati...
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Thermal Stability Performance of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Aerospace Structural Adhesives
Thermal Stability Performance of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Aerospace Structural Adhesives 1. Introduction In the aerospace industry, structural adhesives play a pivotal role in joining lightweight composite materials, aluminum al...
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Development of Low-VOC Eco-Friendly Coatings Based on N-Cyclohexyl-dipropylenetriamine (CHAPAPA)
Development of Low-VOC Eco-Friendly Coatings Based on N-Cyclohexyl-dipropylenetriamine (CHAPAPA) 1. Introduction The global coating industry is undergoing a transformative shift driven by increasing environmental regulations, consumer demand for sus...
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Synergistic Corrosion Inhibition Effect of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Protective Coatings
Synergistic Corrosion Inhibition Effect of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Protective Coatings 1. Introduction Corrosion remains one of the most significant challenges in industrial infrastructure, particularly in sectors such as oil a...
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Feasibility Analysis of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) for Flexible Electronic Encapsulation Materials
Feasibility Analysis of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) for Flexible Electronic Encapsulation Materials Introduction With the rapid advancement of flexible electronics—encompassing wearable sensors, foldable displays, stretchable circuits...
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Synergistic Flame Retardant Mechanism of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Epoxy Systems
Synergistic Flame Retardant Mechanism of N-Cyclohexyl-dipropylenetriamine (CHAPAPA) in Epoxy Systems 1. Introduction Epoxy resins are widely utilized in aerospace, electronics, automotive, and construction industries due to their excellent mechanica...
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3-4-Methoxypropylamine CHAPAPA CAS:5332-73-0
N-cyclohexyl-dipropyltriamine CHAPAPA 3-4-Methoxypropylamine CAS No:5332-73-0Basic information:Chinese name γ-methoxypropylamineEnglish name γ-Methoxy propyl amineAlias: propanolamine methyl ether, 3-methoxypropylamineEnglish alias GAMMA-METHOXY PROPYCAS 5332-...
3-4-MethoxypropylamineCHAPAPACAS:5332-73-0
