Stic-Tite Insulating Cement

Manufacturer: Combustion Engineering, Inc. Product Category: Refractory / Insulating Cement Asbestos Type: Chrysotile Years Produced: 1963–early 1980s Legal Tier: Tier 2 – Litigated Product

Product Description

Stic-Tite Insulating Cement was a refractory insulating cement manufactured by Combustion Engineering, Inc., a major industrial conglomerate with deep roots in the power generation, boiler, and high-temperature process equipment industries. The product was designed to provide thermal insulation and structural bonding in high-heat environments, making it suitable for use in industrial furnaces, boilers, kilns, and other applications where standard construction materials would fail under extreme temperature conditions.

Refractory cements like Stic-Tite served a critical role in mid-twentieth-century industrial operations. They were applied as coatings, patching compounds, and adhesive cements on pipe insulation, boiler components, and furnace linings. Their ability to withstand sustained high temperatures while maintaining adhesive and insulating properties made them a preferred material in manufacturing plants, power stations, refineries, and other heavy industrial settings. Combustion Engineering marketed Stic-Tite as part of a broader line of industrial insulation and refractory products during the period in which asbestos-containing materials dominated the high-temperature insulation market.

The product was produced from approximately 1963 through the early 1980s, a period that aligned with both the peak of industrial asbestos use in the United States and the growing body of scientific and regulatory evidence linking asbestos exposure to serious disease. Combustion Engineering ultimately faced significant legal consequences related to asbestos products across its broader product lines, and the company’s asbestos liability eventually became a defining factor in its corporate history.

Asbestos Content

Stic-Tite Insulating Cement contained chrysotile asbestos as a primary functional component. Chrysotile, sometimes referred to as white asbestos, is the most commercially prevalent form of asbestos and was widely incorporated into refractory and insulating cements throughout the mid-twentieth century due to its heat resistance, tensile strength, and binding properties.

In refractory cement formulations, chrysotile fibers served multiple purposes. They reinforced the cement matrix, helped the material resist cracking under thermal cycling, and contributed to the product’s overall insulating performance. In products like Stic-Tite, the asbestos content was typically distributed throughout the dry and wet cement mixture, meaning that any activity that disturbed the material — mixing, application, cutting, or removal — had the potential to release asbestos fibers into the surrounding air.

Chrysotile has been classified as a known human carcinogen by multiple international and domestic health authorities, including the International Agency for Research on Cancer (IARC) and the U.S. Department of Health and Human Services. OSHA regulates occupational chrysotile exposure under 29 C.F.R. § 1910.1001 (general industry) and § 1926.1101 (construction), recognizing that no safe threshold of exposure has been established for asbestos fiber inhalation.

How Workers Were Exposed

Industrial workers across a range of trades and facilities encountered Stic-Tite Insulating Cement during the product’s years of production and use. Exposure pathways were inherent to the nature of refractory cement work in industrial settings.

Mixing and Preparation: Workers tasked with preparing Stic-Tite for application would have handled dry cement powder or mixed wet formulations, both of which could release chrysotile fibers into the air. Dry mixing in particular generates substantial airborne dust, and in enclosed or poorly ventilated industrial environments, fiber concentrations could reach significant levels.

Application: Applying insulating cement to boiler surfaces, furnace walls, pipe fittings, and other high-temperature components required direct hand contact with the material. Workers spread, troweled, or packed the cement onto surfaces, activities that disturbed the material and released fibers. Coworkers working in the same area would have received secondary exposure from airborne dust generated during these tasks.

Repair and Maintenance: Refractory cements require periodic repair and replacement as industrial equipment ages and undergoes thermal stress. Workers performing maintenance on boilers, kilns, and furnaces would have scraped, chipped, and removed old Stic-Tite cement to prepare surfaces for reapplication. These abrasive removal activities are among the highest-exposure tasks associated with any asbestos-containing product, as they mechanically break apart a material that may have dried and hardened over years of use.

Incidental Exposure: Workers in the general industrial environment — including supervisors, adjacent tradespeople, and maintenance personnel — could have been exposed to asbestos dust released during nearby Stic-Tite application or removal, even if they were not directly handling the product themselves.

The latency period for asbestos-related diseases, which commonly ranges from 20 to 50 years between first exposure and clinical diagnosis, means that workers exposed to Stic-Tite during the product’s active years may only be presenting with disease diagnoses today. Asbestos-related diseases associated with chrysotile exposure include mesothelioma, asbestosis, lung cancer, and other pleural conditions.

There is no active asbestos trust fund specifically associated with Stic-Tite Insulating Cement or Combustion Engineering for the purposes of resolving claims related to this product. Individuals seeking compensation for asbestos-related illness linked to Stic-Tite exposure must pursue remedies through civil litigation.

Litigation History: Litigation records document claims filed against Combustion Engineering, Inc. in connection with asbestos-containing products across its industrial product lines. Plaintiffs alleged that Combustion Engineering knew or should have known about the hazards associated with asbestos-containing refractory and insulating products and failed to provide adequate warnings to workers and end users. Plaintiffs further alleged that the company continued to manufacture and distribute asbestos-containing products, including insulating cements, during periods when the health risks of asbestos exposure were increasingly well-documented in the medical and scientific literature.

Pursuing a Claim: Workers or surviving family members who believe exposure to Stic-Tite Insulating Cement contributed to an asbestos-related diagnosis should consult with an attorney experienced in asbestos litigation. Relevant information for building a claim may include employment records, work history documentation, product identification records, and any available evidence linking specific job sites to Combustion Engineering products during the relevant exposure period.

Applicable Diseases: Asbestos litigation attorneys typically evaluate claims involving mesothelioma, lung cancer with documented asbestos exposure history, asbestosis, and related pleural diseases. Because disease onset may occur decades after exposure, statutes of limitations in asbestos cases are generally measured from the date of diagnosis rather than the date of exposure, though applicable rules vary by jurisdiction.

Documentation: Workers in industrial facilities where Stic-Tite was used should gather any available employment records, union records, co-worker affidavits, and facility maintenance logs that may establish the presence and use of Combustion Engineering refractory products on specific job sites.

This article is provided for informational and reference purposes. It does not constitute legal advice. Individuals with potential asbestos exposure claims should consult a qualified asbestos litigation attorney.