H.W. Lightweight Castable / Micacrete 7 / Mineral Fiber Coating by Harbison-Walker
Product Description
Harbison-Walker Refractories Company was one of the most prominent manufacturers of refractory materials in the United States throughout the twentieth century. Founded in Pittsburgh, Pennsylvania, the company supplied heat-resistant industrial products to a wide range of heavy industries, including steel production, glass manufacturing, cement kilns, power generation, and petrochemical refining. Among its extensive product catalog, Harbison-Walker produced a family of refractory materials marketed under the names H.W. Lightweight Castable, Micacrete 7, and Mineral Fiber Coating. These products were manufactured and sold from approximately 1940 through 1978.
Refractory materials of this type served a critical function in high-temperature industrial environments. Lightweight castables were poured or troweled into place to form insulating linings inside furnaces, kilns, boilers, and other heat-processing equipment. Micacrete 7, as the name suggests, was a castable refractory compound formulated with mineral components for enhanced thermal insulation performance. Mineral Fiber Coating was applied as a surface treatment or finishing layer to refractory structures, providing additional insulation and protection against heat loss or thermal shock.
These products were engineered to withstand sustained exposure to extreme temperatures while remaining relatively lightweight compared to traditional dense refractories. That combination of thermal performance and reduced weight made them attractive choices for industrial facilities seeking to improve energy efficiency and reduce structural load on equipment. As a result, Harbison-Walker products in this category were widely installed across American industry during the mid-twentieth century, a period of intense industrial expansion following World War II.
Asbestos Content
H.W. Lightweight Castable, Micacrete 7, and Mineral Fiber Coating contained chrysotile asbestos as a primary constituent during their production years from 1940 to 1978. Chrysotile, sometimes called white asbestos, is the most commercially prevalent form of asbestos and belongs to the serpentine mineral group. It was extensively used in refractory and insulation products throughout this era because of its heat resistance, tensile strength, and ability to bond with cementitious and mineral binder materials.
In lightweight castable refractories, chrysotile fibers were blended into the dry mix formulation to reinforce the matrix, improve workability, and enhance the material’s ability to resist cracking under thermal cycling. The fiber content allowed the cured product to maintain structural integrity even as furnace temperatures fluctuated dramatically during startup, operation, and shutdown cycles. Mineral Fiber Coating products relied on the same fibrous mineral structure to adhere to surfaces and form a continuous insulating layer.
Chrysotile asbestos has been classified as a known human carcinogen by the International Agency for Research on Cancer (IARC) and is regulated as a hazardous material under the Asbestos Hazard Emergency Response Act (AHERA) and OSHA’s asbestos standards (29 CFR 1910.1001 and 29 CFR 1926.1101). Exposure to chrysotile fibers has been associated with the development of mesothelioma, asbestosis, lung cancer, and other serious asbestos-related diseases following a latency period that commonly spans decades.
How Workers Were Exposed
Industrial workers across a broad range of occupational roles encountered H.W. Lightweight Castable, Micacrete 7, and Mineral Fiber Coating throughout the product lifecycle — from initial installation to routine maintenance and eventual demolition or replacement.
Installation and mixing presented some of the highest exposure risks. Workers tasked with mixing dry castable refractory compounds would open bags of powdered material and combine them with water, releasing clouds of airborne chrysotile dust in the process. In the absence of adequate respiratory protection — which was routinely unavailable or not provided during much of this era — those fibers were inhaled directly into the lungs.
Application activities including troweling, spraying, and hand-packing castable materials into furnace linings and kiln walls similarly generated fiber release. Mineral Fiber Coating, when applied by spray equipment, was particularly prone to releasing fine airborne particles that lingered in enclosed industrial spaces.
Cutting, grinding, and shaping of cured refractory products during fit-up or modification work generated respirable dust. Workers who trimmed or shaped cured castable materials with power tools or hand tools could disturb the hardened fiber matrix and release concentrated asbestos particles into their immediate breathing zone.
Furnace repair and relining operations exposed workers to deteriorating refractory products. Over time, heat cycling caused refractory linings to crack, spall, and crumble. Workers performing tear-out of old linings — including those made from Harbison-Walker castable products — encountered heavily friable, fiber-laden debris. Bricklayers, boilermakers, furnace tenders, and general industrial maintenance workers were among those regularly engaged in this type of work.
Bystander exposure was also a documented concern. Workers in adjacent areas of a plant — those not directly handling the product but working in the same space — could inhale fibers liberated by colleagues performing installation or demolition activities nearby.
Because the diseases caused by asbestos exposure typically do not manifest for 20 to 50 years after initial contact, many industrial workers exposed to these products during the mid-twentieth century have only recently begun to receive diagnoses linked to their occupational history.
Documented Trust Fund / Legal Options
Harbison-Walker Refractories Company faced substantial asbestos-related litigation arising from its refractory products, including H.W. Lightweight Castable, Micacrete 7, and Mineral Fiber Coating. The volume and severity of those claims contributed to the company’s financial restructuring and ultimately to the establishment of a dedicated asbestos compensation mechanism.
Trust Fund: Global Industrial Technologies Asbestos PI Trust
The Global Industrial Technologies Asbestos PI Trust was established to compensate individuals who suffered asbestos-related personal injuries as a result of exposure to products manufactured by Harbison-Walker and related entities operating under the Global Industrial Technologies corporate umbrella. This trust was created through the bankruptcy reorganization process and operates under a Trust Distribution Procedure (TDP) governing claim eligibility and payment.
Filing Eligibility
Claimants who were exposed to H.W. Lightweight Castable, Micacrete 7, or Mineral Fiber Coating manufactured by Harbison-Walker and who subsequently developed a qualifying asbestos-related disease may be eligible to file a claim with the Global Industrial Technologies Asbestos PI Trust. Eligible claimants generally include directly exposed workers as well as, in some circumstances, secondarily exposed individuals such as household members.
Typical Claim Categories
The trust recognizes claims across a range of disease categories consistent with standard asbestos trust procedures, including:
- Mesothelioma (pleural and peritoneal)
- Lung cancer (with established asbestos exposure history)
- Asbestosis and other non-malignant asbestos-related conditions
- Other cancers associated with asbestos exposure as recognized under the applicable TDP
Next Steps
Individuals diagnosed with mesothelioma, asbestosis, lung cancer, or a related condition who have a documented work history involving Harbison-Walker refractory products are encouraged to consult with an asbestos attorney experienced in trust fund claims. An attorney can evaluate exposure records, employment history, and medical documentation to determine eligibility and assist with the filing process against the Global Industrial Technologies Asbestos PI Trust and any other applicable compensation sources.