Researchers at NCPTT are discovering new treatments for historic stone conservation with the help of Hybrid Plastics, the University of Southern Mississippi, and a grant from the National Science Foundation.  The team is developing new stone strengtheners, also called consolidants, based on the latest advances in polymer science.  The National Science Foundation is awarding the partnership a grant of $360,000 for the three-year project.

The National Science Foundation’s grant enables NCPTT to bridge the gap between academic and federal research labs and private industry with this partnership.  This collaboration brings together a unique combination of expertise and resources to address fundamental challenges in stone conservation that may ultimately advance the field of conservation and heritage science.

NCPTT's Materials Conservator Jason Church treats a marble monument with a chemical consolident.

Commercially- available consolidants are on the market, but ever increasing restrictions on environmental regulations make it harder to use these products in an outdoor environment. Additionally, some of the products work better on materials like sandstone than on limestone or marble.

A little more than a year ago, NCPTT was facing the dilemma of cleaning and treating porous sugaring monuments in cemeteries.  That’s when Joe Lichtenhan and Carl Hagstrom of Hybrid plastics paid the Center a visit.  Hybrid Plastics is a young company pioneering the use of a new group of polymers based on modifying POSS (Polyhedral Oligomeric Silsesquioxane) molecules.  Lichtenhan had the idea of using POSS polymers as treatments for deteriorating stone.  Researchers at Hybrid plastics previously had successfully tested a POSS derivative as an adhesive on select grave markers in City Cemetery, Nashville, Tenn.

Derek Patton discusses with NCPTT's Mary Striegel and Carol Chin the capabilities of the Polymer Chemistry laboratories at University of Southern Mississippi

More recently, Derek Patton, an assistant professor at the University of Southern Mississippi, developed an interest in the project.  Patton studies interactions of polymers and surfaces and has an interest in new ways to synthesize polymers.  The University has one of the nation’s leading polymer science schools.  Patton and his graduate students bring unique expertise to the team.

Proposed new stone consolidants are based on the POSS molecule’s ability to form a cage-like structure that provides strength and stability under a variety of environmental conditions. The polymers have properties that are similar to both ceramics and plastics.  Depending on the modifications made to the molecules, the polymers can be used as adhesives, water repellents, or consolidants.

One important property of a consolidant is the “breathability” of the polymer.  Water vapors must be able to move in and out of the stone easily.  Water can cause stone to deteriorate between the polymer and the stone.  NCPTT and its partners believe they have a way to create POSS polymers to treat stone without holding water.  The new consolidants may be able to be cured using UV light, much like new dental adhesives.  POSS polymers are unlikely to change the appearance of natural stone—a critical property for a stone consolidant.

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4 Responses to New National Science Foundation Grant Enables NCPTT to Advance Stone Treatments

  1. Jonathan Fisher says:

    Hopefully you are aware of Cathedral Stone and their incredible group of products.

  2. Jason Church says:

    Sure, we have done training and research with Cathedral Stone and their products for many years.

  3. [...] New National Science Foundation Grant Enables NCPTT to Advance Stone Treatments [...]

  4. JOHN QUINN says:

    MY INTEREST IS TO INCORPORATE POSS POLYMERS IN UV ADHESIVES WHER POOR ADHESION IS A MAIN FACTOR IN OLEFINIC MATERIALS IN MEDICAL PLASTICS ASSEMBLY.
    I AM TRYING TO FIND COMMERCIAL SUPPLIER WORKING WITH EITHER MONOMER OR POLYMER MODIFICATION.
    PLEASE HELP IF YOU CAN IN DIRECTING ME TO THE NEXT STAGE..

    MANY THANKS IN ADVANCE

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