C/M Materials In - Out
C/M Materials In - Out
S.B.G - CIG Infrastructure. Global Board Heirarchy connecting all 22 Firms & Shield Network
REPURPOSED
Raw & Repurposed
Renewable grown or Depleating effect
"Maintaining infrastructure & material sourcing for"
ORDERS - SOURCE
1. Source
S.B.G - CIG Internal
Externals
2. Storage locations
S.B.G - CIG Internal
S.B.G - CIG Partner
3. Reference Stockpiles on-hand
Re-usable for R&D Prototypeing
For Production
THIS IS IMPORTANT
For non-digital infrastructure & digital maintenance + gains
CIG Infrastructure Maintenance involves the above (division)
Manufacturing
https://jobopsatsbg.blogspot.com/2026/01/mass-manufacturing-gains-2026-2030.html
Forms. CIG
https://sydneysspacelive.blogspot.com/2025/10/cig-investors-applications-forms.html
COLLECTIVE MARKET HOLD
Silicon Valley has a tier contorl access to CIG Virrual World & Ai gains for industry shares.
CIG Infrastructure salaries & wages are a combination of investments returns & profit sharing to break even & gain with base rate & bonuses
PARTS + COMPONENT
Part #. Material choice. Mold for to take raw or repurposed materials to create anew for assembly or back up part maintenance replacement
Sinilars or differences with economies of scale builds in scale size for cost cutting & abundance
Cast or weld + bends
Safe workplace practices. Emergency Safety System
COMMODITIES & INFRASTRUCTURE
A goal to order low bulk for high returns in commodities trade or use for In-House in effective mamaged efforts for fixed & variable returns then static infrastructure maintenance with upgrades
"Think of infrastructure as our computer system & network of vacant lots with structure buildings then materials we order in for different use & resale"
Warehouse on property = vacant land with structure & operational costs associated Vs profits above + inflation plan to maintain
"Not partial automated manufacturing builders need to work out fair wage & expenses to compete with end cost before price demands + profit sharing. Automation equipment can be financed + connect with another investment for smaller Vs medium & larger outfits"
Toronto - Montreal - Halifax - Vancouver in Camada like grids in other countries exist & Cargo flights in even to North Bay if anyone takes interest in building for C/M for Northern Ontario jobs despite NB-OT Labs & expansion Labs North Bay cluster 1 rape-terror fest
Shield Retail & Maintenance is not C/M Internal - External like Alpha or S.B.G - CIG yet they interconnect
S.B.G - CIG + C/M
2025-2026 & onward signing Partners
Dr Carly Koslov Bennett (1). Tatiana Bigarda (2). Geneve Samson O'Connor (3). Dr Sydney Nicola Bennett (4)
Global Board decisions while Firm boards have limited right decision making powers overseen by the global board with hierarchies below
THE BENNETT GLOBAL ELITE
Succession 2018 & onward
Roger Ouellette & Tim Koslov
https://sydneysspacelive.blogspot.com/2025/03/roger-ouellete-tim-koslov-dr-sydney-n.html
Human Resources. Job Fairs
Investors Relations. Investors Fairs
Quaterly & Annual Meetings
Global Board
https://sydneysspacelive.blogspot.com/2025/06/cig-elections-july-2025.html
Heirarchy Boards
https://sydneybennettofficial.blogspot.com/2025/10/opportunities.html
Swiss - Aussie HQ
21 Firms at CIG + 22nd Firm
CIG USA x4
CIG Canada x1
CIG European - International x15
CIG China x1
Umbrella - Contract - Sales
Investments - Commodities - In-House
Shield Grid of under 15,000
A contraction of Firms & locations of over 100 down to under 25 since 2018 yet external expansion & investment expansion with mass automation efforts
With S.B.G - CIG
You require K-12 then a firm of College or University with 1+ years
Industry spec credentials
Skill over experience then knowledge retention from our training & education with generalized & speciality focus
H.I.3 is part of training. It teaches & NB-OT Labs & expansion Labs holding liability
CANADIAN OF EUROPEAN INTERNATIONAL
Not USA or China
Canadian manufacturers are a diverse, high-tech sector driving significant economic growth, focusing on innovation in areas like AI, automation, and green tech, with major players in automotive (Magna), food (McCain), energy (Suncor), and aerospace, supported by organizations like Canadian Manufacturers & Exporters (CME), aiming for global competitiveness through advanced tech adoption and reduced trade barriers.
Key Aspects of Canadian Manufacturing:
• Economic Powerhouse: Contributes significantly to Canada's GDP (around 10%), jobs (1.7 million direct), and exports (66%).
• Innovation Hub: Strong investments in R&D, automation, nanotechnology, and biotechnology, bridging research with the market.
• Diverse Sectors: Includes advanced automotive, food & beverage, aerospace, energy, and custom/value-added production.
• Global Competitors: Focus on high-value, customized products and solutions, not just volume.
Major Players & Examples:
• Automotive: Magna International, Ford Canada.
• Food & Beverage: McCain Foods, George Weston Ltd., Nutrien (fertilizers).
• Energy: Cenovus Energy, Suncor Energy, Imperial Oil (processing/energy products).
• Other: Michelin Tires, Paderno Cookware, Sabian Cymbals.
Key Trends & Challenges:
• Technology Adoption: Rapid integration of AI, robotics, and digital tools to boost productivity.
• Sustainability: Growing focus on green manufacturing and adapting to climate initiatives.
• Trade & Policy: Seeking reduced interprovincial trade barriers and new international agreements.
Organizations Supporting Manufacturers:
• Canadian Manufacturers & Exporters (CME): Leading voice and advocate for the sector since 1871, representing thousands of companies.
• Innovation, Science and Economic Development Canada (ISED): Offers programs to support R&D, innovation, and growth.
LARGEST STEEL PRODUCER ON EARTH
China is the world's largest producer of stainless steel, accounting for over half the global supply, and offers a vast range of standard (like 304, 316) and advanced alloys for industries from construction to aerospace, with major supply hubs and significant processing capabilities. Chinese suppliers provide various forms (coils, sheets, finished products) and are known for competitive pricing, high-tech production, and an increasing focus on premium, specialized stainless steel grades for demanding applications.
Key Aspects of China's Stainless Steel Industry:
• Dominant Production: China produces tens of millions of metric tons annually, far exceeding other countries.
• Wide Product Range: From common decorative sheets and structural components to super-austenitic and duplex steels for extreme environments.
• Major Hubs: Key production and sourcing regions exist, making it a global supply center.
• Technological Advancement: Chinese manufacturers are investing in R&D, offering high-performance, specialized alloys.
• Applications: Used globally in construction, automotive, aerospace, medical, energy, and consumer goods.
• Sourcing: Platforms like Alibaba and Made-in-China.com connect international buyers with numerous Chinese suppliers.
How to Source from China:
• Identify Needs: Determine the specific grade (e.g., 304, 316), form (coil, pipe, sheet), and finish required.
• Find Suppliers: Use B2B platforms or specialized sourcing agents to connect with reputable factories.
• Verify Quality: Check for certifications and ensure compliance with international standards (like FDA for food-grade).
In essence, "stainless steel China" refers to its massive production scale, diverse offerings, advanced capabilities, and role as a crucial supplier in the global market.
Key Types & Sources
• Bio-based: Made from plant matter like corn, sugarcane, cellulose, or agricultural waste.
• Biodegradable: Designed to break down in specific environments (compost, soil, water).
• Examples:
• PLA (Polylactic Acid): From fermented plant starch (corn, sugarcane).
• PHA (Polyhydroxyalkanoates): Produced by bacteria, fully biodegradable in various environments.
• Bio-PE/Bio-PET: Chemically identical to fossil plastics but made from plant sources (sugarcane), fitting existing recycling.
• Bio-polyols: Used in bio-based Polyurethanes (PUs) from sources like castor oil, cashew nut shells, or lignin.
Important Distinctions
• Bio-based ≠ Biodegradable: A plastic can be made from plants (bio-based) but still not break down easily (e.g., some bio-PET), while some fossil-based plastics can be biodegradable.
• Drop-ins vs. Novel: Drop-in bio-plastics (like bio-PE) are chemically the same as traditional plastics, making them easy to recycle, whereas novel bioplastics have unique structures, notes www.nature.com and www.sciencedirect.com.
Benefits
• Reduces reliance on fossil fuels.
• Lower greenhouse gas emissions during production.
• Potential for reduced plastic pollution if biodegradable.
Considerations
• Misleading Terms: "Bioplastic" is often misunderstood; not all are biodegradable, and some fossil plastics are biodegradable.
• Environmental Conditions: Biodegradability depends heavily on specific environmental conditions (temperature, microbes).
CONTROVERSAL MODERN - MATERIALS
Fast-grown popular, cotton & leather equvilants then ethical leathers
Woods. Leafing. Repurposed anythings into composite molds with reinforcement for strength equivlant & weight including excess materials
Leaves & renewable adhesives creating composites allows leaf filler alongside multiple areas to acheive equal to plastic with less material as we focus on grown efforts that naturally occur or that we manicure for production
Many metals we can grow for conductive electrical use & fire - explosion avoidance then structural access (burnt treated dirt)
Burnt treated dirt = steel or other metals
FALL FOILAGE YEILDS!
Ground leaf Vs fiber extraction
Leaves at 25% / 75% are good for Forrest beds & soil retention against erosion like branches & sticks Vs natural fire & regrowth yet we can cultivate through safe harvest from separate from manufactured commercial or suburban yeilds
Leaves are used as sustainable fillers and reinforcements in polymer composites, with common types including pineapple (PALF), banana, sisal, sorghum, and even shredded tree leaves (maple, linden), adding strength, stiffness, and biodegradability, though treatments are often needed for optimal bonding with the resin matrix (like epoxy or polyurethane) to improve mechanical properties.
Common Leaf Types for Composites
• Pineapple Leaf Fiber (PALF): Widely studied for strong reinforcement in polyurethane and epoxy matrices.
• Banana Leaf Fibers: Used for green composites, providing reinforcement.
• Sorghum Leaves: High in cellulose, hemicellulose, and lignin, making them good candidates for bio-composites.
• Sisal: Known for good tensile strength, especially in epoxy resins.
• Tree Leaves (Maple, Linden, Walnut): Shredded leaves can act as particle fillers in HDPE, increasing hardness.
• Date Palm Leaves: Agricultural waste that can be converted into composite materials.
How They're Used
• Fibers: Long fibers (like PALF, banana) are extracted and used as reinforcement.
• Particles/Powder: Dried and ground leaves (like tree leaves, sorghum) are mixed in as fillers.
Benefits
• Sustainability: Utilizes agricultural waste, reducing reliance on synthetic materials.
• Cost-Effective: Often cheaper than traditional fillers like glass fibers.
• Enhanced Properties: Can increase hardness, stiffness, and sometimes tensile/impact strength, especially when treated.
• Antimicrobial: Some fibers (like hemp) offer natural antibacterial properties for hygiene.
Processing & Challenges
• Chemical Treatments: Often required (e.g., with silane coupling agents) to improve bonding between the natural leaf and the polymer.
• Dispersion: Ensuring uniform distribution of leaf particles within the resin is key.
• Matrix Compatibility: Performance varies significantly with different polymers (epoxy, polyurethane, PLA).
No bombs away or see ya later alligators
Big confusing mathematical equations complicated a simple word build on a basic foundation with specialized advancement in areas. It's really not
Hole Digger. Not Gold Digger.
https://jobopsatsbg.blogspot.com/2026/01/bored-out-bunker-prairies.html
S.B.G - CIG + C/M
Comments
Post a Comment