Grace Products

Overview

Grace is a leading global supplier of catalysts; engineered and packaging materials; and, specialty construction chemicals and building materials. Its Catalysts Technologies business manufactures specialty catalysts and related products used in chemical manufacturing applications. Products include petroleum refining catalysts and additives, and catalyst systems that support the petrochemical industry. The Materials Technologies business manufactures specialty products for a variety of industrial, consumer, food/beverage, pharmaceutical and packaging uses. The Construction Products business provides specialty construction chemicals and specialty building materials, as well as systems and services that strengthen, enhance and protect structures. Grace employs approximately 6,500 people in over 40 countries.

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Grace Articles
LUDOX® - Improved Resiliency for Building & Construction thumbnail
LUDOX® Colloidal Silica is used in a wide range of processes to improve the and resiliency of building materials. Formulating LUDOX™ into concrete, coatings, adhesives, and sealants increases productivity and reduces cost while boosting the strength and consistency of the end product.
Grace - LUDOX® - Domestic Colloidal Silica thumbnail
LUDOX® is produced domestically to the highest level of quality available from a colloidal silica.
LUDOX® - Colloidal Silica Densifiers thumbnail
LUDOX® Colloidal Silica reacts with calcium hydroxide in concrete to form calcium silica hydrates to increase density and hardness of the concrete.
Colloidal Silica - A Versatile Problem Solver thumbnail
Colloidal silicas are aqueous dispersions of amorphous silica nanoparticles that are useful as binders, surface modifiers, and flocculants.
LUDOX® Colloidal Silica Creates Better Catalysts thumbnail

LUDOX® Colloidal Silica is a high-quality silica source and binder for catalyst particles that increase chemical and thermal stability.  Catalysts treated with LUDOX® also become harder, have increased attrition resistance, and adhesion to substrates.