Chemical modifications of vegetable oils may be applied for the purpose of improving their physicochemical properties in their usage for the bio‐based lubricants. The vegetable oils with a high percentage of oleic acid, such as soybeans and rapeseed oils, are important raw materials to obtain the biolubricants. In this particular study, the oleic acid was esterified with 1‐octanol, followed by epoxidation. The oxirane ring opening reaction was performed using different alcohol structures (linear, branched, and cyclic), in order to evaluate their influence on the final physicochemical properties with the synthesized samples. These aforesaid reaction steps were followed by 1H nuclear magnetic resonance and the main physicochemical properties in the intermediate and final samples were assessed. The highest oxidative stability was observed for the samples obtained, using a cyclic alcohol at the oxirane ring opening reaction (230 min), followed by the linear alcohols with the branched alcohol presenting the lowest oxidative stability (124 min). The pour point values for the samples synthesized with the branched alcohol were slightly better than those with the linear and cyclic alcohols. All the synthesized samples showed high viscosity indexes (>130) and kinematic viscosities at 40 °C, ranging from 30 to 33 cSt (application degree ISO VG‐32), which are adequate for their use in the formulation of bio‐based lubricants.
The use of mineral lubricants and
petroleum derivatives has become,
along the years, harmful to the environment, so renewable raw materials
have gained expressive notoriety. The innovation of this study is
to understand how the highly unsaturated content from soybean oil
influences the physicochemical properties and the thermal behavior
of synthesized biolubricant base stocks. The process used was carried
out in three steps: esterification with 2-ethylhexanol, epoxidation,
and oxirane ring opening with 2-ethylhexanol. The modifications were
monitored by 1H NMR, the main physicochemical properties
were measured, and the thermogravimetric behaviors of products were
evaluated. The synthesized samples had high viscosity indexes (VI
> 120) and viscosities that fit in application grade ISO-32. The
samples
using highly unsaturated fatty acids had a better pour point (−12
°C). The raw material composition directly influenced the physicochemical
properties but did not affect the thermogravimetric behavior.
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