1、Toughened and reinforced the petroleum
In this study, we incorporated a bio-based thermotropic liquid crystal epoxy precursor (THMT-EP) containing multi-aromatic s-triazine structure derived from vanillin into petroleum-based counterpart tetraglycidyl-4,4′-methylene dianiline (TGDDM) with 4,4-diaminodiphenyl sulfone (DDS) as a curing agent, and the cured co-blended resin system ...
2、石油树脂(热塑性树脂)_百度百科
石油树脂(hydrocarbon resin)是石油裂解所副产的 C5 、 C9 馏份,经前处理、聚合、蒸馏等工艺生产的一种热塑性树脂,它不是高聚物,而是分子量介于 300-3000 的低聚物。
3、Unleashing the Power of Bio
Toughening the petroleum-based epoxy resin blends with bio-based modifiers without compromising their modulus, mechanical strength, and other properties is still a big challenge in view of the sustainability.
液体C5石油树脂
L系列树脂是液体C5石油树脂,具有较低的软化点和窄的分子量分布,为胶粘剂提供低温性能。 适用于低温环境下的标签,如水果蔬菜标签、血瓶标签等。 [vc_colu […]
伊森新材
It mainly uses resin oil as raw material and adopts the internationally leading catalytic polymerization method to produce high-grade functional hydrocarbon resin series products and derivatives.
Qilong
L-Modified Petroleum Resin (C9) Brief introduction: QILONG® L-Series Hydrocarbon Resin is a low molecular weight thermoplastic aromatic resin produced from petroleum derived C9 fraction through catalytic-polymerization technique. It's a transparent granular solid with the color of light yellow.
Phenol
phenol-modified liquid petroleum resins, as emerging materials, are gaining increasing attention in research and applications. Through continuous technological innovation and material improvements, these resins are poised to play a larger role in industrial production and daily life.
液体石油树脂
ChemicalBook 为您提供液体石油树脂的化学性质,熔点,沸点,密度,分子式,分子量,物理性质,毒性,结构式,海关编码等信息,同时您还可以浏览液体石油树脂产品的价格,供应商,贸易商,生产企业和生产厂家,最后液体石油树脂的中文,英文,用途 CAS cas number cas no可能也是您需要的。
Unleashing the Power of Bio
A bio-based thermotropic liquid crystal epoxy resin (THMT-EP) was used to modify petroleum-based epoxy resin (E51), which significantly improved the impact strength of the blended system, as well as the thermal stability, mechanical strength, and flame retardant properties.
Eastman™ 增黏樹脂 (石油樹脂)
Eastman™ Tackifier Resins (Hydrocarbon resin, HCR), also known as tackifier resins, are byproducts of petroleum cracking. They are generally categorized into four types: C5 aliphatic, C9 aromatic, DCPD (dicyclopentadiene, cycloaliphatic), and pure monomers (e.g., poly SM, AMS, etc.).
In the thriving development of modern industry, petroleum resin stands as an indispensable chemical raw material, with its vast applications and profound impact unmatched by any other chemical product. Among them, liquid modified petroleum resin has become an irreplaceable component in the industrial sector due to its unique properties and widespread use.
Liquid modified petroleum resin is a high-molecular-weight polymer synthesized through a specialized process that polymerizes long-chain hydrocarbon compounds derived from petroleum. Its molecular structure consists of numerous repeating carbon and hydrogen atoms, linked by covalent bonds into a complex network. This structure endows the resin with exceptional properties, such as high melting points, excellent heat resistance, and superior chemical stability, enabling its broad application across various fields.
In the plastics industry, liquid modified petroleum resin serves as a critical raw material for producing diverse plastics. It can react with multiple monomers to form plastics with specific functions, including thermosetting and thermoplastic materials. These plastics, renowned for their mechanical strength, corrosion resistance, and electrical insulation, are widely used in automotive manufacturing, construction materials, electronics, and appliances. For instance, polyethylene (PE) and polypropylene (PP), processed from liquid modified petroleum resin, are prized for their lightweight, high strength, and ease of molding, making them highly popular in the market.
The coatings industry also heavily relies on liquid modified petroleum resin. When combined with pigments and fillers, it forms coatings with strong coverage, adhesion, and durability. These coatings are extensively applied in automotive paints, shipcoatings, and industrial anti-corrosion treatments, effectively safeguarding metal surfaces against corrosion. as environmental awareness grows, water-based coatings have emerged as a preferred choice in the industry. By blending with other resins or additives, liquid modified petroleum resin enables the formulation of eco-friendly water-based coatings that meet performance standards while aligning with sustainable development goals.
Beyond these applications, liquid modified petroleum resin plays a vital role in rubber production, textiles, paper manufacturing, and more. In these fields, it undergoes cross-linking reactions with other polymers to enhance material properties, such as tensile strength and abrasion resistance. These high-performance materials are integral to products like tires, conveyor belts, ropes, and fishing nets, significantly improving daily life.
amidst increasing emphasis on environmental protection and resource conservation, the production and usage of liquid modified petroleum resin face new challenges. Traditional manufacturing processes often entail high energy consumption and environmental pollution, which have become bottlenecks for industry progress. achieving green, low-energy production and minimizing ecological impact have become urgent priorities.
To address these challenges, scientists are exploring innovative methods for synthesizing liquid modified petroleum resin. Examples include substituting petrochemical feedstocks with bio-based raw materials and utilizing microbial fermentation to produce high-molecular-weight polyolefins. Such advancements not only reduce costs and pollution but also elevate product value, fostering sustainable growth in the industry.
Looking ahead, liquid modified petroleum resin will continue to be a cornerstone in numerous sectors. With ongoing technological innovation, it is poised to deliver even greater performance across broader applications, contributing significantly to human progress and development.
