Plastic elements produced 100% with plastic residues of rejection and transparent luminescent coating on the surface
Patent number: ES1280540
Publication date: 2021-11-02
Applicant(s): RODRIGUEZ BARREIRO CELSO, SAINZ PEREZ JOSE VICENTE
Inventor(s): RODRIGUEZ BARREIRO CELSO, SAINZ PEREZ JOSE VICENTE
Plastic elements produced entirely from rejected plastic waste (not recyclable in other processes) with transparent luminescent coating on the surface. The mixture of plastic elements from which we obtain the raw material comes from the green or gray container (rest fraction) and the yellow container (non-recyclable fraction) or from the agricultural, livestock and industrial sectors. Being the main plastic polymers used HDPE, PELD, PP, PS, ABS, PET AND POLYAMIDES mainly without neglecting others. The transparent coating (Epoxy base, polyurethane, elastomer, acrylic, polyester, methacrylate or other transparent liquid element for this purpose) incorporates an additional photo-luminescent or luminescent component transparent in the dark, the coating manifests in the dark a high luminescence showing the surface characteristics of the element or part on the applied surface.
Metallized packaging films made from recycled plastics
Patent number: EP3888911
Publication date: 2021-10-06
Applicant(s): KBG KUNSTSTOFF BETEILIGUNGEN
Inventor(s): RIEKER FRANK
The invention relates to a multi-layer plastic film, more particularly a multi-layer plastic composite film, preferably a multi-layer plastic packaging film, based on plastic recyclate (recycled plastic), more particularly based on plastic recyclate originating from waste, with a plastic recyclate proportion of at least 80 wt.% with respect to the plastic film, and with barrier layer properties (barrier properties) with respect to water vapor and/or gases (preferably oxygen), preferably with barrier layer properties (barrier properties) with respect to water vapor and gases (preferably oxygen). The invention also relates to the use of said multi-layer plastic film, more particularly as a packaging material. The plastic recyclate is preferably post-consumer plastic recyclate (PCR plastic recyclate), more particularly PCR films. (From WO2021197674 A1)
Recycling system for recycling plastic laminate into recycled materials, recycling method, and laminate separation and recovery method
Patent number: WO2021/230033
Publication date: 2021-11-18
Applicant(s): DIC
Inventor(s): SENTE Yasuhiro, NAGATA Yoshitomo
Provided are a recycling system, a recycling method and a laminate separation and recovery method involving wet crushing equipment capable of crushing and simultaneously separating a laminate by crushing the laminate in water. A recycling system according to the present invention is for recycling a plastic laminate having two or more layers into recycled materials and comprises wet crushing equipment for separating a laminate into individual layers while crushing the laminate in water by simultaneously performing crushing and pumping, and equipment for discharging and recovering a crushed mixture of the separated individual layers.
Textile fabric made from bamboo-viscose and its use as garment or mask
Patent number: EP3971332
Publication date: 1985-12-27
Applicant(s): FIRSTWEAR
Inventor(s): VON BAIBUS NICOLÁS
The present invention relates to a textile fabric, wherein the textile fabric comprises at least bamboo viscose or a bamboo viscose derivative and at least one additive, characterized in that the at least one additive is selected from the group consisting of recycled polyester, elastane, cotton, silk, nonwoven, wool, polyester, recycled cotton, recycled polyamide, polyamide, recycled polypropylene and polypropylene, and in that the bamboo viscose or the bamboo viscose derivative has a mass fraction of at least 50% by weight of the textile fabric, in particular of at least 60% by weight of the textile fabric, and in that the at least one additive has a mass fraction of between 1% by weight and 50% by weight of the textile, in particular between 2% by weight and 45% by weight of the textile or between 5% by weight and 40% by weight of the textile.
Environmentally friendly and functional martial arts garment and fabrics
Patent number: WO2022/018138
Publication date: 2022-01-27
Applicant(s): YDER SPORTS
Inventor(s): YDERSTRÖM FREDRIK
Disclosures herein relates to martial arts garment (1) of fabric comprising bamboo fibers. Further, martial art fabrics comprising bamboo fibers are provided. Still further, disclosures herein relates to processes for manufacturing martial art fabrics. No chemically processed environmentally harmful substances are added during the manufacturing process. Thereby, fabrics and garments without chemically processed environmentally harmful substances is provided. All embodiments disclosed herein of fabrics and garments as well as the manufacturing processes for producing them fulfils the requirements set by Ecolabel, Eucolabel and the Nordic Swan Ecolabelling.
A secure method to control greenwashing using blockchain
Patent number: AU2021106926
Publication date : 2021-11-25
Applicant(s): ZHANG LEI KATHY
Inventor(s): SADIQ MOHD, ZHANG LEI (KATHY), KHAN SARFRAZ ALAM
Recently the demand for green products and services have been increased. In order to meet the customers ever growing demand for eco-friendly products, there are several instances in which companies spending more time and money claiming to be “Green” through advertising and marketing rather than actually implementing business practices that minimize environmental impact which is known as Greenwashing. In order to bring transparency and end to end visibility of the overall supply chain of environment friendly products, this invention uses blockchain technology. The purpose of the new system is to use the blockchain technology and add traceability, and security to the products supply chain. Every operation that is performed on certain products can be tracked with the changes made in its unique code and if any possibility of attack in the form of inserting a counterfeit product or false claims information regarding the environmentally friendly products in the supply chain network happens then it can be easily detected and mitigated.
An abrasive cleaning tool mechanically bonded to any man-made fabric metal or plastic surface
Patent number: CA3074274
Publication date: 2021-09-02
Applicant(s): RINGAS ZACHARIAS
Inventor(s): RINGAS ZACHARIAS
The current invention relate to cleaning tools, and more particularly to an environmentally friendly non-scratch coated fabric, mechanically bonded to polyester and or to microfiber man-made fabric. It can be used to soak, clean, and scrub any household surface with-out scratching. It also can be attached to any plastic and aluminum cleaning sticks to clean household floor surfaces without scratching and without the use of harsh cleaning agents. Currently there is no Eco-friendly product in the market that will clean all common household surfaces without scratching and without the use of harsh cleaning chemicals. Existing similar products are primarily composed of synthetics and tend to scratch common household surfaces. There exist a need for an Eco-friendly product that possesses a soak, wipe, and scrub feature that is long lasting and does not scratch the surface on which it is used. BRIEF DESCRIPTION OF THE DRAWINGS The attached figures 1-2, shows the embodiments of the claimed invention.
Biodegradable fabrics made from polylactic acid (PLA) fibers and/or yarns and methods for making the same
Patent number: US20220080701
Publication date: 2022-03-17
Applicant(s): WANG GUOCHENG, WONG KWOK SHING THOMAS
Inventor(s): ZULIFQAR ADEEL, CHUNG WAI YEE, AHMAD ISHAQ, CHUNG WAI LIN, LEUNG POLLY HANG MEI, LI JIANZHEN, LI LI, WONG CHI LUEN TIMOTHY, WONG KWOK SHING THOMAS
The present application relates to biodegradable and ecofriendly fabrics and methods for making the same. The fabrics are made from PLA fibers and/or yarns, and have one-way or two-way filtration characteristics and/or moisture management characteristics with controlled porosity and smooth or textured surface, the moisture management characteristics arise from a combined effect of material properties and fabric structure.