Bisisobutyryl peroxide

Results of all experiments are given below.

DSC

Results of the DSC scan are given in the chart 3 in the attachment: Arrhenius plot of the Trigonox 187 decomposition.

This are the blue dots in the 1000/T range of 2.9 to 3.3.

Results of a40% emulsion, prepared from a 70% sample in isododecane, are added also. This is a sample with batch code Ch 090324. This sample contained 0.4% TBHP as a stabilizing agent. The rate of decomposition of the sample in isododecane is just a bit higher. The difference is most likely not significant.

TAM and Setaram C80 investigations

The result of a TAM investigation is given in the chart 4 in the attachment .

Results of all the TAM investigations are given in the table below.

Remark: a concentration of 1.74% w/w corresponds with 0.1 Mole / kg.

Results of the TAM investigations are given as green - triangles in the chart in the attachment 3 at 1000/T is around 3.36. The green – triangle data points are the results of investigations in organic solvents.

Test results in alkanes

Test results of the rate of decomposition in isododecane or n-nonane are given as red stars  in the Arrhenius plot. These results were obtained by iodometric titrations after storage over longer periods of time as low temperature.

Influence of isobutyricacid and isobutanal on the stability of the peroxide

The influence of minor amounts of isobutanal and isobutyric acid are investigated in the Setaram C80. These compositions simulate the composition of the peroxide as prepared in an alternative chemical process.

See plot 5 in the attachment.

Conclusion: Isobutanal gives a stronger de-stabilizing of the peroxide compared to isobutyric acid.

Results of investigations in water

See plot 3 in the attachment: Arrhenius plot of the Trigonox 187 decomposition.

The red - square dot at the same 1000/T above the green – triangles is the result of the TAM investigation in water at 25ºC. The red – square dot left of this point is the result of NMR investigations at 27ºC, see

Degradation study of Bisisobutylyl peroxide in water at room temperature, Doc code: ECG-MAS A20120902, J. ter Weele and S Datta, November 12, 2012 and NMR data. See: 3437-84-1, Stability in water, Weele, 2012, RS

Overview of tested samples and results 

Heat production as a function of time is given in the chart in the attachment.

Calculations and discussion

The total heat of decomposition of diisobutyryl peroxide pure is around 1500 J/g. This value is applied for the calculation of the data in the second column of table below.

Total heat of decomposition(J/g) = [ concentration (%)/ 100(%)] x 1500 (J/g)

Total heat of decomposition of each sample is applied to calculate the rate of decomposition as given in the third column of table below.

Rate of reaction (k in 1/s) = Heat production (W/kg) / Total heat of reaction ( J/kg)     

The degree of decomposition after 1 hr at 24.5°C is calculated from the relation:  

ln c/ c₀  = -k x t

In which:

c          concentration at time t, in this case in the range of 0 to 1

c₀         concentration at t₀, c₀is set to 1

k           rate of reaction at 24.5°C (1/s)

t           time (in this case 3600 s)

Results of calculations.

The rate of reaction is increased with around 40% by comparing a formulation in only isododecane as solvent with the rate of reaction of a solution in a mixture of isododecane / corn oil with a ratio of 8 / 92.

The rate of decomposition at 20°C based on the measured data at 24.5°C can be derived by applying Arrhenius law, see attachment

Calculation is now carried out for the 13.1% solution in isododecane:

                      1.33*10^-5= k₀* e^{-120000/(8.3142*297.7),}               k₀= 1.51*10^-161/s.

The value of k at 20°C is now calculated: 6.3*10^-61/s.

So, the rate of reaction at 24.5°C is 1.33*10^-5(1/s) and the rate of reaction at 20°C is 6.3*10^-6(1/s). This is a decrease of a factor 2.1 per 4.5°C.

So, the rate of reaction at 20°C and the amount of decomposed peroxide after 1 hour at 20°C, is around 50% of the values at 24.5°C as given in the last two columns of the table above.