Plasticizers: Types, Uses, Classification, Selection & Regulation
Most common plasticiser chemistries include citrates, benzoates, ortho-phthalates, terephthalates, adipates, azelates, sebacates, and trimellitates. Plasticizers are the most common additives used in the plastics industry. But, selecting the right plasticizer for an application has always been a daunting task.
Dibutyl phthalate
DBP is an important plasticizer that enhances the utility of some major engineering plastics, such as PVC. Such modified PVC is widely used in plumbing for carrying sewerage and other corrosive materials. [3] Degradation [ edit] Hydrolysis of DBP leads to phthalic acid and 1-butanol. [4] Monobutyl phthalate (MBP) is its major metabolite. [5]
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- Can bio-based resins replace plasticizers in tire tread compounds?
- One of the most used approaches to reach this goal is the use of bio-based raw materials. On this basis, this work aims to substitute the traditional plasticizers used in tire tread compounds (obtained from non-renewable resources) by bio-based resins.
- Can bio-based resins replace plasticizers in rubber compounds?
- On this basis, this work aims to substitute the traditional plasticizers used in tire tread compounds (obtained from non-renewable resources) by bio-based resins. These materials can function as plasticizers in rubber compounds and in contrast with vegetable oils, they are not in conflict with the food industry.
- How bio-based resins affect the magic triangle of tires?
- Effect of bio-based resins on the magic triangle of tires (wet grip, rolling and abrasion resistance). The automotive industry is in constant development, with a special focus on increasing the sustainability of tires while maintaining their high performance. One of the most used approaches to reach this goal is the use of bio-based raw materials.
- Can bio-based alternatives be used in a tire-tread compound?
- Replacing fossil ingredients in a tire-tread compound with bio-based alternatives is an approach to create a more sustainable product. For instance, the plasticizer can be replaced, which is a petroleum-based ingredient used in relatively high amounts in the rubber. This approach was followed in the current study.
- Can bio-based resins replace TDAE oil in tire tread compounds?
- In this context, this work aims to study the use of bio-based resins as an alternative to TDAE oil in tire tread compounds. Resins are low molecular weight (MW) compounds varying from 800 to 4000 g/mol . Depending on their characteristics they have different functions in rubber compounds.
- Are there bio-based alternatives to rubber plasticizers?
- Only treated aromatic oils such as Treated Distillate Aromatic Extract (TDAE) or Mild Extracted Solvate (MES) are allowed . However, these oils are obtained from non-renewable resources. For these reasons, many studies are concentrating on finding bio-based alternatives to rubber plasticizers.
