Abstract: The invention is drawn to a method of making a fire-resistant mine-grid comprising the following steps: providing a poly(vinyl chloride) (PVC) plastisol, providing a polyester yarn mesh fabric, coating the polyester yarn mesh fabric with the PVC plastisol, heating the coated fabric for about 5 to 20 minutes, more preferably for about 5 to 15 minutes, to a temperature comprised between 110° C. and 150° C., so as to effect gelatinization of the PVC plastisol and form a plasticized PVC coating enveloping the polyester yarns of the mesh fabric, wherein the PVC plastisol, comprises (a) a poly(vinyl chloride) base resin, (b) from 60 to 140 phr of a primary plasticizer which is tris-(2-chloro-isopropyl)phosphate (TCPP), (c) from 40 to 140 phr of a secondary plasticizer, (d) from 145 to 230 phr of an inorganic filler.

Abstract: An abrasive article can include a body including a bond material and abrasive particles contained within the bond material. The bond material can include a siloxane functional group covalently bonded to a plurality of benzene rings. In an embodiment, the bond material can include at least one siloxane functional group covalently bonded to a phenoxy. In a particular embodiment, the bond material can include polydimethylsiloxane covalently bonded to a phenoxy. The body can include an improved wet strength, which may be represented by wet flexure stress retention. In an embodiment, the body includes a wet flexure stress retention of at least 52%.

Abstract: An abrasive tool including a bonded abrasive including a body comprising abrasive particles contained within a three-dimensional matrix of bond material, the bond material including an organic material, the abrasive tool further including a first filler contained within the three-dimensional matrix of bond material including a silicate in a first content and a second filler contained within the three-dimensional matrix of bond material including a sulfate in a second content, and the first content is greater than the second content.

Abstract: Compositions are provided in which dendrimers and/or nanoparticles are synthesized with multi-photon responsive elements and self-immolative oligomers. The compositions may be utilized to selectively deliver Payloads within tissue by irradiating the compositions. The compositions may also be used to amplify sensitivity to irradiation.

Abstract: Nanocarriers are synthesized with polymers that respond to lower pH and/or ROS by being degraded. The compositions may be utilized to selectively deliver payloads within patients by responding to lower pH and/or ROS at localities within the patient. The present invention also features methods of synthesizing nanocarriers that are degraded by lower pH and/or ROS.

Abstract: Nanocarriers are synthesized with polymers that respond to lower pH and/or ROS by being degraded. The compositions may be utilized to selectively deliver payloads within patients by responding to lower pH and/or ROS at localities within the patient. The present invention also features methods of synthesizing nanocarriers that are degraded by lower pH and/or ROS.

Abstract: Compositions are provided in which dendrimers and/or nanoparticles are synthesized with multi-photon responsive elements and self-immolative oligomers. The compositions may be utilized to selectively deliver Payloads within tissue by irradiating the compositions. The compositions may also be used to amplify sensitivity to irradiation.

Abstract: Compositions are provided in which dendrimers and/or nanoparticles are synthesized with multi-photon responsive elements and self-immolative oligomers. The compositions may be utilized to selectively deliver Payloads within tissue by irradiating the compositions. The compositions may also be used to amplify sensitivity to irradiation.

Abstract: The present invention features compositions in which nano-carriers are synthesized with polymers that respond to lower pH and/or ROS by being degraded. The compositions may be utilized to selectively deliver payloads within patients by responding to lower pH and/or ROS at localities within the patient. The present invention also features methods of synthesizing nano-carriers that are degraded by lower pH and/or ROS.

Abstract: Compositions are provided in which dendrimers and/or nanoparticles are synthesized with multi-photon responsive elements and self-immolative oligomers. The compositions may be utilized to selectively deliver Payloads within tissue by irradiating the compositions. The compositions may also be used to amplify sensitivity to irradiation.

Abstract: The present invention features compositions in which nano-carriers are synthesized with polymers that respond to lower pH and/or ROS by being degraded. The compositions may be utilized to selectively deliver payloads within patients by responding to lower pH and/or ROS at localities within the patient. The present invention also features methods of synthesizing nano-carriers that are degraded by lower pH and/or ROS.