Abstract: Container insulation including a batt comprised of large paper particles, at least 90% of which by weight are greater than 10 mm in diameter. Less than 5% by weight binder fibers are used, which have a length of at least 20 mm. Most preferably, no binder fibers are used. Where the batts are faced with paper, the paper is coated with a biodegradable coating. The resulting product is repulpable and recyclable in accordance with Fiber Box Association (FBA) testing protocols.
Abstract: Container insulation including a batt comprised of large paper particles, at least 90% of which by weight are greater than 10 mm in diameter. Less than 5% by weight binder fibers are used, which have a length of at least 20 mm. Most preferably, no binder fibers are used. Where the batts are faced with paper, the paper is coated with a biodegradable coating. The resulting product is repulpable and recyclable in accordance with Fiber Box Association (FBA) testing protocols.
Abstract: Container insulation including a batt comprised of large paper particles, at least 90% of which by weight are greater than 10 mm in diameter. Less than 5% by weight binder fibers are used, which have a length of at least 20 mm. Most preferably, no binder fibers are used. Where the batts are faced with paper, the paper is coated with a biodegradable coating. The resulting product is repulpable and recyclable in accordance with Fiber Box Association (FBA) testing protocols.
Abstract: Packaging insulation for insertion into a packaging container, which includes an air laid thermoplastic fibrous batt having foldable thermoplastic film material adhered to both sides of the batt. Preferably the thermoplastic material of which the fibers and film are made is the same, and most preferably it is PET. The resulting method and product provides packaging insulation which can be shipped flat and compressed, which expands when unpacked and which can be readily folded to match the interior configuration of a shipping container, such as a cardboard box.
Type:
Grant
Filed:
June 27, 2016
Date of Patent:
August 3, 2021
Assignee:
Cellulose Material Solutions, LLC
Inventors:
Kevin Chase, Brandon Fenske, Christopher Benner, Matthew Henderson
Abstract: Packaging insulation for insertion into a packaging container, which includes an air laid natural fibrous batt comprised primarily of natural fibers, having foldable paper sheet material adhered to both sides of the batt. The resulting method and product provides packaging insulation which can be shipped flat and compressed, which expands when unpacked and which can be readily folded to match the interior configuration of a shipping container, such as a cardboard box.
Type:
Grant
Filed:
May 29, 2016
Date of Patent:
September 29, 2020
Assignee:
Cellulose Material Solutions, LLC
Inventors:
Kevin Chase, Brandon Fenske, Christopher Benner, Matthew Henderson
Abstract: Container insulation including a batt comprised of large paper particles, at least 90% of which by weight are greater than 10 mm in diameter. Less than 5% by weight binder fibers are used, which have a length of at least 20 mm. Most preferably, no binder fibers are used. Where the batts are faced with paper, the paper is coated with a biodegradable coating. The resulting product is repulpable and recyclable in accordance with Fiber Box Association (FBA) testing protocols.