1.1 Background

1.1.1 History

Air samples were received at SLTC collected on Chromosorb 106 tubes requesting analysis for 2,2,4-trimethyl-1,3-pentanediol diisobutyrate. Analysis by gas chromatography with a flame ionization detector was chosen, because this compound is a liquid at room temperature. Carbon disulfide was selected for the extraction solvent and was found to give an extraction efficiency of 100.1%. The analyte was found to be well retained on the Chromosorb 106 tubes, with a retention efficiency recovery of 100.4% and the storage stability recovery of 99.5% on Day 14 of ambient storage. Along with these studies, charcoal tubes were also explored. The extraction efficiency on charcoal tubes using carbon disulfide as a solvent showed non-linear extraction, with an extraction efficiency of 98.1% for a loading of 23.34 mg to 88.6% for a loading of 1.167mg. The extraction efficiency with 99:1 carbon disulfide:dimethyl formamide averaged 100.8% over the range of 1.167 to 23.34 mg. The retention efficiency averaged 99.8%. The storage at ambient temperature was 98.2% on Day 14, indicating that charcoal tubes are a good alternative to the Chromosorb 106 tubes.

1.1.2 Toxic effects (This section is for information only and should not be taken as the basis of OSHA policy.)¹

2,2,4-Trimethyl-1,3-pentandiol diisobutyrate is a contact irritant affecting the skin and mucous membrane.

1.1.3 Workplace exposure^2,3

2,2,4-Trimethyl-1,3-pentanediol diisobutyrate is used as an intermediate in the manufacture of plasticizers, surfactants, pesticides, and resins. It is used as a viscosity control agent in plastisol, rotomolding, and rotocasting operations. It is used in the production of vinyl flooring as a hardening agent. Production exceeds one million pounds annually.

1.1.4 Physical properties and other descriptive information⁴

CAS number:	6846-50-0
RTECS number:	SA1420000	molecular weight:	286.41
melting point:	-70 °C	boiling point:	280 °C
appearance:	clear liquid	molecular formula:	C16H30O4
odor:	musty	flash point:	109 °C (230 °F)(cc)
auto ignition		density:	0.941
temperature:	423 °C
synonyms:	Isobutyric acid, 1-isopropyl-2,2-dimethyltrimethyl ester; Kodaflex TXIB; 2,2,4-trimethylpentanediol-1,3-diisobutyrate; TXIB
solubility:	acetone, alcohol, benzene, and carbon tetrachloride
IMIS:5	T350
structural formula:

1.2 Detection limit of the overall procedure (DLOP) and reliable quantitation limit (RQL)

The DLOP is measured as mass per sample and expressed as equivalent air concentrations, based on the recommended sampling parameters. Ten samplers were spiked with equal descending increments of analyte, such that the highest sampler loading was 10.35 µg of 2,2,4- trimethyl-1,3-pentanediol diisobutyrate. This is the amount spiked on a sampler that would produce a peak approximately 10 times the response for a sample blank. These spiked samplers were analyzed with the recommended analytical parameters, and the data obtained used to calculate the required parameters (standard error of estimate and slope) for the calculation of the DLOP. The slope was 770.3 and the SEE was 101.8. The RQL is considered the lower limit for precise quantitative measurements. It is determined from the regression line parameters obtained for the calculation of the DLOP, providing 75% to 125% of the analyte is recovered. The DLOP and RQL were 0.397µg and 1.32 µg respectively.

Table 1.2 Detection Limit of the Overall Procedure for 2,2,4-Trimethyl-1,3-pentanediol diisobutyrate mass per sample (µg) area counts (µV-s) 0.00 1.04 2.07 3.11 4.14 5.18 6.21 7.25 8.28 9.32 10.35 0 638 1368 2265 3170 3966 4640 5620 6409 7029 7767

Figure 1.2.1. Plot of data to determine the DLOP/RQL for 2,2,4-trimethyl-1,2-pentandiol diisobutyrate. (Y = 770X - 90.8)

Below are chromatograms of the RQL level.

Figure 1.2.2. Chromatogram of the RQL of 2,2,4-trimethyl-1,3-pentanediol diisobutyrate. (1 = carbon disulfide; 2 = benzene (contaminant in the carbon disulfide); 3 = p-cymene; and 4 = 2,2,4-trimethyl-1,3-pentanediol diisobutyrate)	Figure 1.2.3. Chromatogram of the 2,2,4-trimethyl-1,3-pentanediol diisobutyrate peak in the standard near the RQL.

2.1 Apparatus

2.1.1 Samples are collected using a personal sampling pump calibrated, with the sampling device attached, to within ±5% of the recommended flow rate.

2.1.2 Samples are collected with 7-cm × 4-mm i.d. × 7-mm o.d. glass sampling tubes packed with two sections (100/50 mg) of Chromosorb 106. The sections are held in place and separated with a glass wool plug and two urethane foam plugs. For this evaluation, commercially prepared sampling tubes were purchased from SKC, Inc. (catalog no. 226- 110).

2.2 Reagents

None required.

2.3 Technique

2.3.1 Immediately before sampling, break off the ends of the flame-sealed tube to provide an opening approximately half the internal diameter of the tube. Wear eye protection when breaking ends. Use tube holders to minimize the hazard of broken glass. All tubes should be from the same lot.

2.3.2 The smaller section of the adsorbent tube is used as a back-up and is positioned nearest the sampling pump. Attach the tube holder to the sampling pump so that the adsorbent tube is in an approximately vertical position with the inlet facing down during sampling. Position the sampling pump, tube holder and tubing so they do not impede work performance or safety.

2.3.3 Draw the air to be sampled directly into the inlet of the tube holder. The air being sampled is not to be passed through any hose or tubing before entering the sampling tube.

2.3.4 After sampling for the appropriate time, remove the adsorbent tube and seal it with plastic end caps. Seal each sample end-to-end with an OSHA-21 form as soon as possible.

2.3.5 Submit at least one blank sample with each set of samples. Handle the blank sampler in the same manner as the other samples except draw no air through it.

2.3.6 Record sample air volumes (liters), sampling time (minutes) and sampling rate (mL/min) for each sample, along with any potential interferences on the OSHA-91A form.

2.3.7 Submit the samples to the laboratory for analysis as soon as possible after sampling. If delay is unavoidable, store the samples at refrigerator temperature. Ship any bulk samples separate from the air samples.

2.4 Extraction efficiency

The extraction efficiency was determined by liquid-spiking Chromosorb 106 with 2,2,4-trimethyl- 1,3-pentandiol diisobutyrate at 0.1 to 2 times the target concentration. These samples were stored overnight at ambient temperature and then extracted for 30 minutes with occasional shaking, and analyzed. The mean extraction efficiency over the studied range was 100.1%. The wet extraction efficiency was determined at 1 times the target concentration by liquid spiking the analyte onto Chromsorb 106 tubes which had 10-L humid air (absolute humidity of 15.9 mg/L of water, about 80% relative humidity at 22.2°C) drawn through them immediately before spiking. The mean recovery for the wet samples was 99.8%.

Table 2.4 Extraction Efficiency (%) of 2,2,4-Trimethyl-1,3-pentandiol diisobutyrate
level		sample number
×target concn	mg per sample	1	2	3	4	5	6	mean
0.1 0.25 0.5 1.0 1.5 2.0 1.0 (wet)	1.17 2.92 5.83 11.7 17.5 23.3 11.7	97.4 99.9 99.3 100.9 100.1 99.2 99.8	100.0 100.4 99.2 101.2 100.4 100.3 100.1	101.6 100.8 99.7 102.0 99.5 98.7 99.1	99.6 99.7 100.5 101.8 99.3 100.2 100.4	100.6 100.4 100.0 98.9 99.9 100.1 99.5	99.6 100.3 101.4 99.1 100.1 99.9 99.9	99.8 100.3 100.0 100.7 99.9 99.7 99.8

2.5 Retention efficiency

Six Chromosorb 106 tubes were spiked with 23.34 mg (199.2 ppm) of 2,2,4-trimethyl-1,3- pentanediol diisobutyrate and allowed to equilibrate for 6 h. The tubes had 10 L humid air (absolute humidity of 15.9 mg/L of water, about 80% relative humidity at 22.2°C) pulled through them at 0.1 L/min. The samples were extracted and analyzed. The mean recovery was 100.4%. There was no analyte found on the backup section of any of the tubes.

Table 2.5 Retention Efficiency (%) of 2,2,4-Trimethyl-1,3-pentandiol diisobutyrate
sample number
section	1	2	3	4	5	6	mean
front rear total	100.8 0.0 100.8	100.4 0.0 100.4	99.1 0.0 99.1	102.1 0.0 102.1	100.5 0.0 100.5	99.5 0.0 99.5	100.4 0.0 100.4

2.6 Sample storage

Nine Chromosorb 106 tubes were each spiked with 11.67 mg (99.62 ppm) of 2,2,4-trimethyl-1,3- pentanediol diisobutyrate. They were allowed to equilibrate for 6 h, then 10 L of air, with an absolute humidity of 15.7 milligrams of water per liter of air (about 80% relative humidity at 22.2°C), was drawn through them. Three samples were analyzed immediately, and the rest were sealed and stored at room temperature. Three more were analyzed after 7 days of storage and the remaining three after 14 days of storage. The amounts recovered, which are corrected for extraction efficiency, indicate good storage stability for the time period studied.

Table 2.6 Storage Test for 2,2,4-Trimethyl-1,3-pentandiol diisobutyrate (% Recovery)
sample number
time (days)	1	2	3	mean
0 7 14	100.9 98.0 99.6	101.2 99.1 99.6	101.2 99.1 99.6	100.3 98.6 99.5

2.7 Recommended air volume and sampling rate.

Based on the data collected in this evaluation, 10-L air samples should be collected at a sampling rate of 0.1 L/min for 100 minutes.

2.8 Interferences (sampling)

2.8.1 There are no known compounds which will severely interfere with the collection of 2,2,4- trimethyl-1,3-pentanediol diisobutyrate.

2.8.2 Suspected interferences should be reported to the laboratory with submitted samples.