Bayer Chemicals: A new plasticizer joins the polymer additive
- Classification:Chemical Auxiliary Agent
- Other Names:Plasticizer
- Purity:99.6%
- Type:Liquid, plasticizer
- Usage:Coating Auxiliary Agents, Leather Auxiliary Agents, Plastic Auxiliary Agents, Rubber Auxiliary Agents, Plastic Auxiliary Agents, Rubber Auxiliary Agents
- MOQ:200kgs
- Package:200kgs/battle
- Place of Origin::China
- Item:T/T,L/C
Jun 17, 2003Bayer Chemicals, has added a new polymeric plasticizer to its polymer additive range. The innovative trial product Ultramoll® VP SP 51022 was developed for the rubber
Oct 1, 2003Leverkusen Bayer Chemicals, a division of Bayer AG, has added a new polymeric plasticizer to its polymer additive range. The innovative trial product Ultramoll ® VP SP 51022
Bayer to trial improved plasticizer INFONA
- Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
- Other Names:Plasticizer
- Purity:99%
- Type:Chemical additives, Chemical plasticizer 1413%
- Usage:PVC Products, Coating Auxiliary Agents, Leather Auxiliary Agents,
- MOQ:200kgs
- Package:200kgs/battle
- Shape:Powder
- Place of Origin::China
- Item:T/T,L/C
Bayer is working on improving its Mesamoll plasticizer range with the development of a new low-haze grade. The company already has two grades of the alkylsulphonate ester-based
The new compounds were characterized with a good thermal stability and improved plasticizer migration resistance. Authors attributed the observed improvement in thermal stability to the
Bio-Based Plasticizers: a Sustainable Approach to Enhance
- Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
- Other Names:Plasticizer
- Purity:99 %
- Type:Plasticizer
- Usage:Rubber Auxiliary Agents
- MOQ:25kg/bag
- Package:200kg/drum
- Shape:Powder
- Item:T/T,L/C
According to Grandview Research’s market report, the market size in the U.S. was estimated at USD 3.05 billion in 2023.Anticipating a substantial growth trajectory of 8.7%
Plasticizers are an important class of low molecular weight non-volatile compounds that are widely used in polymer industries as additives [1].The primary role of such substances
A Review of the Effect of Plasticizers on the Physical
- Classification:Chemical Auxiliary Agent
- Other Names:Plasticizer
- Purity:99.5% Min
- Type:Plastizer
- Usage:Plastic Auxiliary Agents, Textile Auxiliary Agents
- MOQ:25kg/bag
- Package:200kg/drum
- Advantage:Stable
- Payment:T/T
According to this theory, the free volume of a glassy polymer at T g is 2.5% of the total volume. The WLF equation is one of the most successful theories of free volume. Principally, the free
Recent Developments of Biobased Plasticizers and Their Effect on Mechanical and Thermal Properties of Poly(vinyl chloride): A Review. DL ‐Isoborneol esters as nontoxic
Ranking Plasticizers for Polymers with Atomistic Simulations:
- Classification:Chemical Auxiliary Agent
- Other Names:Plasticizer
- Purity:99%, 99%
- Type:Adsorbent, plasticizer
- Usage:Plastic Auxiliary Agents, Rubber Auxiliary Agents
- MOQ:25kg/bag
- Package:200kg/drum
- Application:Plasticizer
- Quality control:COA ,SDS,TDS
- Delivery:Within 7-15 Days
Virgin biopolymers are often brittle and therefore need the addition of plasticizers to obtain the required mechanical properties for practical applications, for example, in bags and
Phthalate Plasticizers. Phthalate plasticizers are a group of chemicals derived from phthalic acid that are commonly used to make plastics such as polyvinyl chloride (PVC) more flexible, transparent, and durable. They
- Are biopolymers a good substitute for conventional plasticizers?
- The use of natural and/or biodegradable plasticizers, with low toxicity and good compatibility with several plastics, resins, rubber and elastomers in substitution of conventional plasticizers, such as phthalates and other synthetic conventional plasticizers attracted the market along with the increasing worldwide trend towards use of biopolymers.
- Which plasticizer is the most efficient?
- Glycerol was the most efficient of the six plasticizers, explained by it forming the least amount of hydrogen bonds, having the shortest hydrogen bond lifetimes and low molecular rigidity. Hence, not only was it possible to rank plasticizers, the ranking results could also be explained by the simulations.
- What are natural based plasticizers?
- Nowadays, there is increasing interest in the use of natural-based plasticizers that are characterized by low toxicity and low migration. This group includes epoxidized triglyceride vegetable oils from soybean oil, linseed oil, castor-oil, sunflower oil, and fatty acid esters (FAEs) .
- Can molecular simulations be used to find the optimal plasticizer?
- Three polyols (glycerol, sorbitol, and xylitol), two ethanolamines (tri- and diethanolamine), and glucose were investigated. The results indicate that molecular simulations can be used to find the optimal plasticizer among a set of candidates or to design/identify better plasticizers in a complex polymer system.
- Are plasticizers more effective than others?
- To summarize, with MD simulations it was possible to not only rank the efficiency of the plasticizers correctly (PVT seemed to rank overall somewhat better than stress–strain data) but also explain why some plasticizers were more effective than others.
- Are DL isoborneol esters a good plasticizer for polyvinyl chloride?
- Hong‐ying Chu, Chuan Gao, Shuai Huang, Xin‐Ding Yao. DL ‐Isoborneol esters as nontoxic main plasticizers for polyvinyl chloride with improved processability, thermal stability, and mechanical performance.
