S.B.G & CIG Sustainable Tires
S.B.G & CIG Sustainable Tires
M.D.E - C/M Fast-grown Tires
Like with everything else. We utilize renewables or birthed first then raw & repurposed material in-house then external sourced for an industry standard equivalent
OUR SUSTIANABLE TIRE VERSUS COMPETITION
70-99% Sustianable grown materials & a Zero-Emissions & Zero Cycle
The 100% sustainable-material tire includes X featured ingredients across nine different tire components, including those described below.
From C/M Soybean Yields
• Carbon Black - Bio Fast Grown
COMPETITORS
• Carbon black is included in tires for compound reinforcement and to help increase their life and has traditionally been made by burning various types of petroleum products. M.D.E - C/M's new tire features three different carbon blacks that are produced from methane, carbon dioxide, and plant-based oil. Initial life cycle assessments demonstrate either reduced carbon emissions compared with current methods of carbon black production or the use of bio-based or waste feedstock sources.
From C/M Soybean Yields
• The use of soybean oil in tires is a significant M.D.E - C/M's innovation that helps keep a tire's rubber compound pliable in changing temperatures. Soybean oil is a bio-based resource that reduces M.D.E - C/M's use of petroleum-based products. While nearly 100% of soy protein is used in food/animal feed applications, a significant surplus of oil is left over and available for use in industrial applications.
From C/M Rice Yields
• Silica is an ingredient often used in tires to help improve grip and reduce fuel consumption. M.D.E - C/M's new tire contains a unique variety of silica produced from rice husk ash, a byproduct of rice processing that is often discarded and put into landfills. A high-quality silica has been produced from this waste ash.
From C/M Plast Alternatives
• Plastics Alternatives - Bio Fast Grown
COMPETITORS
• Polyester is recycled from plastic bottles and other plastic waste by reverting the polyester into its base chemicals and reforming them into technical grade polyester feasible for tire cords.
MANDATORY SUBSTANCE
1. Carbon Black
Carbon black, a form of elemental carbon, has various applications, particularly as a pigment and reinforcing agent in products like tires and plastics. When considering alternatives, several options emerge, depending on the specific application.
For Pigment Applications:
• Black iron oxide:
A synthetic pigment offering a deep, rich black color, often used in paints, coatings, and cosmetics.
• Amorphous carbon black:
A type of carbon black produced without a specific crystalline structure, can be used as a pigment.
• Graphite:
A crystalline form of carbon, can be used as a pigment, particularly when finely ground.
• Organic pigments:
Various organic pigments, like phthalocyanine black, offer alternatives for specific applications.
For Reinforcing Applications (e.g., in tires):
• Silica:
A common alternative, especially in tires, offering improved rolling resistance and wet grip.
• Clays:
Can be used as a reinforcing agent, particularly in rubber compounds.
• Carbon nanotubes:
Offer high strength and conductivity, making them a potential alternative in some applications.
• Graphene:
A two-dimensional form of carbon, can be used as a reinforcing agent and offers high strength and conductivity.
For Other Applications (e.g., Conductive Applications):
• Conductive polymers: Offer alternatives in applications requiring electrical conductivity.
• Metallic powders: Can be used in applications where high conductivity is needed.
• Carbon black from alternative sources: Methane pyrolysis, for example, can produce carbon black from natural gas, offering a potential alternative production method.
Bio-based carbon black alternatives, like BioBlack TX from Nature Coatings, offer a sustainable and renewable option for various applications. These alternatives, derived from wood residue instead of oil, eliminate carcinogenic compounds and reduce reliance on fossil fuels. Recovered carbon black (rCB), produced from end-of-life tires, is another option, offering a sustainable substitute for virgin carbon black. Additionally, minerals like talc can be used as cost-effective alternatives or to improve the performance of carbon black in certain applications.
Bio-based Carbon Black Alternatives:
• Origin Materials:
Produces a 100% bio-content product from wood residue, offering a cost-competitive and customizable alternative to petroleum-derived carbon black.
• Nature Coatings' BioBlack TX:
A carbon-negative, water-based dispersion derived from FSC-certified wood waste, serving as a direct replacement for petroleum-derived carbon black.
• BioMade:
Collaborating with Origin Materials and the University of California-Davis, is working on decarbonizing military fleets using bio-based carbon black from agricultural waste.
Recovered Carbon Black (rCB):
• rCB is produced from end-of-life tires through chemical recycling routes like pyrolysis.
• It can be a partial or complete replacement for virgin carbon black in various industries, particularly in rubber and plastic applications.
Other Alternatives and Enhancements:
• Imerys Minerals:
Offers talc and other minerals that can be used as cost-effective replacements or to improve the performance of carbon black in rubber and plastic applications.
• Living Ink Technologies:
Offers alternative carbon black for printing inks.
• Klean Carbon:
Provides rCB products that meet ASTM standards for virgin carbon blacks and are used in tire and other applications.
• Biochar:
Can be used as a sustainable alternative to carbon black, particularly in agricultural mulch films, as it can act as a UV blocker and improve film properties.
MANDATORY SUBSTANCE
1. Polyester
Technical grade polyester can be replaced with a variety of alternatives, both natural and synthetic, depending on the specific application. Natural options include recycled cotton, hemp, and Tencel, while synthetic choices include recycled polyester, nylon, acrylic, and spandex. These alternatives offer similar properties to polyester in terms of durability, moisture-wicking, and ease of care.
Synthetic Fiber Alternatives:
• Recycled Polyester:
Made from recycled plastic bottles, offering a more sustainable option than virgin polyester.
• Nylon:
A strong and durable synthetic fiber, often used in activewear and outdoor gear.
• Acrylic:
A synthetic fiber known for its warmth and softness, often used in sweaters and knitwear.
• Spandex:
A highly elastic fiber, often used to add stretch and flexibility to other fabrics.
• Polyurethane (PU):
A synthetic polymer that can be used to coat fabrics for waterproofing and other specialized applications.
• Biodegradable Polyester:
A synthetic fiber made from renewable resources like corn starch, designed to break down under specific conditions.
Considerations when choosing alternatives:
• Sustainability:
Some alternatives like recycled polyester, hemp, and Tencel are more sustainable than traditional polyester due to their production processes and environmental impact.
• Performance:
Different materials offer varying levels of durability, moisture-wicking, breathability, and other performance characteristics.
• Cost:
The cost of different materials can vary significantly, so it's important to consider the overall budget.
• End Use:
The specific application of the material will influence the best choice of alternative.
UTILIZING ALTERNATIVES FOR EQUIVLANCE
Leafing will likely be utilized alongside actual Indoor Rubber tree sap with specifics for a fast-grown sustiansble renewable tire option in our Point A - B process in manufacturing like repair of for rubber compounds & specific practices for repair
How It's Made. Automotive Tires
https://m.youtube.com/watch?v=0VM74BHb_s4&t=6s&pp=ygUXVGlyZSBiaWtkaW5nIGF1dG9tb3RpdmU%3D
Expect bio-foam inserts with seals for air voiding industry common air pressures for a desired effect lowering costs & risk of flats utilizing a hybrid run-flat effort for rsving first & street legal use second
Dr Sydney Nicola Bennett if you read through the H.I.3 Case descriptions has a practice, process & design for S.B.G & CIG In-House investments covering industry modern ahaisnt ancient & vintage which will remain aggressively progressive against competitors between 2026-2030 & onward as part of the restructure to take on mass production internationally with team below & connected
We may supply tires & repaired compounds for other brands so they can partially invest in our sustainable environmental - health focused process as industry standard
Boston dynamics amongst over 200 viable others. Hunaoid robots working without human intervention
https://youtube.com/shorts/ZTwlGIELlJ4?si=wFJPzCBQPJqwf6Ep
S.B.G & CIG SIMPLE SERVICE BUSINESS
Service Business. Truck & Trailer
Storage expense at a Box Storage or other with 24 hour access if space
Website & social profile for cold call & contact clientele
Pressure washing & landscape contracting or residential - commercial repair or other
Expense equipment pool find for insurance & maintenance then costs
Wage & salary costs & overall taxation strategy
S.B.G & CIG
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