Patent application number | Description | Published |
20100015420 | BIOLAMINATE COMPOSITE ASSEMBLY AND RELATED METHODS - Embodiments of the invention relate to a biolaminate composite assembly, including one or more biolaminate layers, a non-plastic rigid substrate and an adhesive layer in contact with the substrate and the one or more biolaminate layers. The one or more biolaminate layers is laminated or formed to the substrate. | 01-21-2010 |
20110123809 | BIOLAMINATE COMPOSITE ASSEMBLY AND RELATED METHODS - Embodiments of the invention relate to a biolaminate composite assembly, including one or more biolaminate layers, a non-plastic rigid substrate and an adhesive layer in contact with the substrate and the one or more biolaminate layers. The one or more biolaminate layers is laminated or formed to the substrate. | 05-26-2011 |
20110262720 | CELLULOSIC BIOLAMINATE COMPOSITE ASSEMBLY AND RELATED METHODS - Cellulosic biolaminate assemblies are provided. In one embodiment, a biolaminate structure is provided comprising a first cellulosic layer, a second cellulosic layer, and a first bio-based polymer. The first bio-based polymer impregnates the first cellulosic layer and the second cellulosic layer. The first cellulosic layer and the second cellulosic layer are fused together. | 10-27-2011 |
20110287237 | Wear Resistant Biolaminate Composite Assembly and Related Methods - Biolaminate assemblies for use as high pressure laminates are provided. In one embodiment, the biolaminate assembly includes a surface wear layer including polylactic acid and at least one of a plastic and mineral. The surface wear layer is adapted to be laminated or thermoformed to a nonplastic rigid substrate. The surface wear layer has a wear resistant range greater than about 400 cycles using tabor abrasion and temperature resistance range from about 212° F. to about 356° F. such that the biolaminate assembly is suitable for use as a high pressure laminate. | 11-24-2011 |
20120013037 | Viscoelastic Extrusion Processing Method and Compositions for Biopolymers - A viscoelastic extrusion process (VEEP) for biopolymers such as polylactic acid is provided. The VEEP process removes many processing and performance limitations of PLA as well as creates performance sufficient to produce durable “nonbiodegradable” products as a direct replacement for PVC and other petrochemical profile and sheet extrusion applications. The VEEP process also retains a high degree of crystallinity within the PLA for increasing toughness and to lower its biodegradability. The invention also includes an integral process wherein rheology is highly modified to allow profile extrusion and higher melt strength wherein processing is lower than the melting point of the primary biopolymer and below the browning points of the natural fibers in the biopolymers viscoelastic state. | 01-19-2012 |
20120015154 | Biolaminate Composite Assembly Including Polylactic Acid and Natural Wax Laminate Layer, and Related Methods - Biolaminate composite assemblies are provided. Generally, the biolaminate composite assemblies may comprise one or more biolaminate layers and at least one biolaminate layer may comprise polylactic acid. In one embodiment, a biolaminate composite assembly is provided comprising one or more biolaminate layers wherein the biolaminate composite assembly is three-dimensionally formable over a rigid non-plastic substrate. At least one of the biolaminate layers comprises polylactic acid and a natural wax. In another embodiment, a method for forming a biolaminate composite assembly is provided. | 01-19-2012 |
20120015176 | BIOLAMINATE COMPOSITE ASSEMBLY AND RELATED METHOD - Embodiments of the invention relate to a biolaminate composite assembly, including one or more biolaminate layers, a non-plastic rigid substrate and an adhesive layer in contact with the substrate and the one or more biolaminate layers. The substrate is laminated or formed to the one or more biolaminate layers. Embodiments also relate to methods of making a biolaminate composite assembly. | 01-19-2012 |
20120019917 | Biooptical and Biofunctional Properties, Applications and Methods of Polylactic Acid Films - Biopolymers that may be used in optical applications are provided. Suitable biopolymers include polylactic acid and polylactic acid blends. The polylactic acid may be used with a photocatalyst such as titonium dioxide in some embodiments. In other embodiments, the polylactic acid may incorporate decorative fused recycled particles. Generally, the biopolymer may be used in applications where optical characteristics and/or fire performance are desired. | 01-26-2012 |
20120291377 | FIRE RETARDANT BIOLAMINATE COMPOSITE AND RELATED ASSEMBLY - The present disclosure, in one embodiment, relates to a fire retardant biolaminate composite assembly. The assembly includes a biolaminate layer. The biolaminate layer includes a PLA sub-layer, wherein the biolaminate layer includes a fire retardant. The assembly also includes and an intumescent layer comprising an intumescent material that swells as a result of heat exposure, wherein the biolaminate has good char and low flame spread with minimal smoke generation. | 11-22-2012 |
20130149511 | CELLULOSIC BIOLAMINATE COMPOSITE ASSEMBLY AND RELATED METHODS - Cellulosic biolaminate assemblies are provided. In one embodiment, a biolaminate structure is provided comprising a first cellulosic layer, a second cellulosic layer, and a first bio-based polymer. The first bio-based polymer impregnates the first cellulosic layer and the second cellulosic layer. The first cellulosic layer and the second cellulosic layer are fused together. | 06-13-2013 |
20140162038 | BIOLAMINATE COMPOSITE ASSEMBLY INCLUDING POLYLACTIC ACID AND NATURAL WAX LAMINATE LAYER, AND RELATED METHODS - Biolaminate composite assemblies are provided. Generally, the biolaminate composite assemblies may comprise one or more biolaminate layers and at least one biolaminate layer may comprise polylactic acid. In one embodiment, a biolaminate composite assembly is provided comprising one or more biolaminate layers wherein the biolaminate composite assembly is three-dimensionally formable over a rigid non-plastic substrate. At least one of the biolaminate layers comprises polylactic acid and a natural wax. In another embodiment, a method for forming a biolaminate composite assembly is provided. | 06-12-2014 |
20140272334 | MULTI-LAYER ADDITIVE TEXTURE LAMINATES AND METHODS - A multi-layer laminate may include a substrate, a printed build layer adjacent the substrate and defining a texture having elevated areas and areas of relief, a printed image layer adjacent the build layer, and a coating layer having a mineral loading and a method for creating a textured laminate may include steps to cause the printed image to be in registration with the texture. | 09-18-2014 |
20140377568 | FIRE RETARDANT BIOLAMINATE COMPOSITE AND RELATED ASSEMBLY - The Present disclosure, in one embodiment, relates to a fire retardant biolaminate composite assembly. The assembly includes a biolaminate layer. The biolaminate layer includes a PLA sub-layer, wherein the biolaminate layer includes a fire retardant. The assembly also includes an intumescent layer comprising an intumescent material that swells as a result f heat exposure, wherein the biolaminate has good char and low flame spread with minimal smoke generation. | 12-25-2014 |
20150045490 | BIOHYDROGENATED PLASTICS - A plastic composition may include a plastic or bioplastic portion and about 0.5%-50% hydrogenated saturated triglyceride. A method of making a plastic processing additive may include blending a hydrogenated saturated triglyceride with a second material to form an additive composition and pelletizing the additive composition. A pellet for plastics processing may include a first component comprising a hydrogenated saturated triglyceride and a second component comprising one of a wood product, a bioplastic, or a filler. | 02-12-2015 |