Article ID Journal Published Year Pages File Type
673936 Thermochimica Acta 2013 10 Pages PDF
Abstract

The molecular structure of phenolic novolacs plays an important role in their processing, properties and applications, yet its exact influences on the cure and thermal decomposition remain insufficiently understood. Herein two type of novolacs are prepared: high-ortho novolacs (HOPF) with high ortho–para ratio, and ordinary novolacs (NPF). Their cure behavior with hexamethylenetetramine (HMTA) investigated using DSC and TGA. The DSC analysis confirmed that HOPF/HMTA exhibited higher reactivity than NPF/HMTA. The model-free isoconversional analysis with the Vyazovkin method HOPF/HMTA has the higher effective activation energy than NPF/HMTA at the first stage, but lower in the latter stage. The isothermal cure is reasonably predicted. Moreover, the model-fitting kinetics using Málek method reveals the autocatalytic reaction mechanisms and yields the curing rate equation which can well predict the non-isothermal cure. Furthermore, TGA reveals the network structures of cured HOPE and NPF moderately affect the thermal decomposition process.

► The nonisothermal curing kinetics of HOPF/HMTA and NPF/HMTA are systematically investigated and compared. ► The model-free isoconversional method is applied to untangle the curing mechanisms. ► The nonisothermal curing reaction of HOPF/HMTA were successfully simulated.

Related Topics
Physical Sciences and Engineering Chemical Engineering Fluid Flow and Transfer Processes
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