Patents by Inventor Caroline E. Morel

Caroline E. Morel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 12370647
    Abstract: An abrasive article comprising an attachment layer and an abrasive layer. The attachment layer comprises a porous backing having a first major surface, an opposed second major surface, and a first plurality of voids extending from the first major surface to the second major surface. The abrasive layer has a third major surface and an opposed fourth major surface and comprises a cured composition, abrasive particles at least partially embedded in the cured composition, and a second plurality of voids extending from the third major surface to the fourth major surface. The first major surface of the attachment layer is adjacent the third major surface of the abrasive layer, and the pattern of the second plurality of voids is independent of the pattern of the first plurality of voids.
    Type: Grant
    Filed: December 6, 2018
    Date of Patent: July 29, 2025
    Assignee: 3M Innovative Properties Company
    Inventors: Michael J. Annen, Deborah J. Eilers, Chainika Jangu, Caroline E. Morel, Kathleen S. Shafer
  • Patent number: 12226877
    Abstract: The disclosure relates to an abrasive article comprising: a fabric substrate comprising strands forming first void spaces between the strands; a laminate joined to the fabric substrate; a cured resin composition joined to the laminate opposite the fabric substrate; abrasive particles joined to the cured resin composition; and a plurality of second void spaces extending through the laminate coinciding with first void spaces in the fabric substrate. The disclosure also relates to methods of making such abrasive articles.
    Type: Grant
    Filed: February 7, 2020
    Date of Patent: February 18, 2025
    Assignee: 3M Innovative Properties Company
    Inventors: Jaime A. Martinez, Caroline E. Morel, Junting Li, Michael J. Annen, Deborah J. Eilers, Daniel A. Billig, Carlos A. Barrios, Monika E. Frendt, Victor A. Cárdenas, Yuyang Liu, Dwight D. Erickson, Brian G. Koethe, Ann M. Hawkins, Jing Zhang
  • Patent number: 11865673
    Abstract: The disclosure relates to layers comprising a body having a thickness, T, comprising a curable composition comprising a polymerizable epoxy-acrylate resin composition and abrasive particles at least partially embedded in the polymerizable epoxy-acrylate resin composition, wherein the body includes a plurality of void spaces free of the curable composition extending into the body from the first major surface and the depth of the plurality of void spaces is at least 10 percent of thickness T. The disclosure also relates to cured compositions formed from such curable compositions and, in turn, abrasive articles made from such cured compositions as well as methods for making abrasive articles.
    Type: Grant
    Filed: December 6, 2018
    Date of Patent: January 9, 2024
    Assignee: 3M INNOVATIVE PROPERTIES COMPANY
    Inventors: Chainika Jangu, Michael J. Annen, Deborah J. Eilers, David M. Mahli, Caroline E. Morel, Kathleen S. Shafer, Gregory P. Sorenson
  • Publication number: 20220152783
    Abstract: The disclosure relates to an abrasive article comprising: a fabric substrate comprising strands forming first void spaces between the strands; a laminate joined to the fabric substrate; a cured resin composition joined to the laminate opposite the fabric substrate; abrasive particles joined to the cured resin composition; and a plurality of second void spaces extending through the laminate coinciding with first void spaces in the fabric substrate. The disclosure also relates to methods of making such abrasive articles.
    Type: Application
    Filed: February 7, 2020
    Publication date: May 19, 2022
    Inventors: Jaime A. Martinez, Caroline E. Morel, Junting Li, Michael J. Annen, Deborah J. Eilers, Daniel A. Billig, Carlos A. Barrios, Monika E. Frendt, Victor A. Cárdenas, Yuyang Liu, Dwight D. Erickson, Brian G. Koethe, Ann M. Hawkins, Jing Zhang
  • Publication number: 20210170547
    Abstract: The disclosure relates to layers comprising a body having a thickness, T, comprising a curable composition comprising a polymerizable epoxy-acrylate resin composition and abrasive particles at least partially embedded in the polymerizable epoxy-acrylate resin composition, wherein the body includes a plurality of void spaces free of the curable composition extending into the body from the first major surface and the depth of the plurality of void spaces is at least 10 percent of thickness T. The disclosure also relates to cured compositions formed from such curable compositions and, in turn, abrasive articles made from such cured compositions as well as methods for making abrasive articles.
    Type: Application
    Filed: December 6, 2018
    Publication date: June 10, 2021
    Inventors: Chainika Jangu, Michael J. Annen, Deborah J. Eilers, David M. Mahli, Caroline E. Morel, Kathleen S. Shafer, Gregory P. Sorenson
  • Publication number: 20200298373
    Abstract: An abrasive article comprising an attachment layer and an abrasive layer. The attachment layer comprises a porous backing having a first major surface, an opposed second major surface, and a first plurality of voids extending from the first major surface to the second major surface. The abrasive layer has a third major surface and an opposed fourth major surface and comprises a cured composition, abrasive particles at least partially embedded in the cured composition, and a second plurality of voids extending from the third major surface to the fourth major surface. The first major surface of the attachment layer is adjacent the third major surface of the abrasive layer, and the pattern of the second plurality of voids is independent of the pattern of the first plurality of voids.
    Type: Application
    Filed: December 6, 2018
    Publication date: September 24, 2020
    Inventors: Michael J. Annen, Deborah J. Eilers, Chainika Jangu, Caroline E. Morel, Kathleen S. Shafer