Catering Tenders

Description: Loreto Grammar School For Girls Tender For Catering Services

Description: Provision, Operation, Maintenance of a Collective Catering Solution Taking the Form of Connected Refrigerators for Mnhn Staff Located on the Jardin Des Plantes Site

Details: Electric Field Assisted Sintering Of Bimetallic Materials a Novel Method For Joining Dissimilar Metals Through Electric Field Assisted Sintering, Offering A Superior Alternative To Traditional Welding Techniques. the Challenge: in Industries Where Combining Dissimilar Materials Is Crucial, Traditional Welding Methods Like Explosion Welding Or Friction Stir Welding Have Significant Limitations And High Costs. This Document Presents An Innovative Alternative: Creating Bimetallic Materials Using Electric Field Assisted Sintering (efas). This Technology Provides A Practical Solution Mainly For The Aerospace, Heat Transfer, And Manufacturing Sectors. For Example, It Allows The Fusion Of Aluminum And Stainless Steel Without The Size And Cost Limitations Of Traditional Connectors. how It Works: this Technology Presents An Innovative Approach To Fabricate Bimetallic Materials By Utilizing Electric Field Assisted Sintering (efas). It Enables The Joining Of Dissimilar Materials, Such As Stainless Steel And Aluminum, Which Are Challenging To Weld By Conventional Means. Utilizing Electric Fields, Efas Ablates Surface Oxides And Facilitates Controlled Diffusion At Lower Temperatures, Allowing For Precise Bonding Without Additional Interfacing Materials, Counteracting The Risks Of Galvanic Corrosion Effectively. The Process Achieves Bonding Without The Need For Bulky Mechanical Fasteners, Explosion Welding, Or Friction Stir Welding, Making It A Rapid And Efficient Alternative For Creating Bimetallic Couplings. key Advantages: facilitates The Joining Of Dissimilar Materials Efficiently. reduces The Need For Bulky Mechanical Fasteners, Lowering Space Requirements And Leak Potential. offers Precise Control Over Pressure And Temperature, Leading To Superior Bond Quality And Reproducibility. eliminates The Need For Consumable Materials, Setup Time, And Post-bond Processing Associated With Explosion Welding. more Environmentally Friendly And Safer Than Traditional Welding Methods. problems Solved challenges In Bonding Dissimilar Materials With Significantly Different Properties. high Cost And Complexity Of Traditional Bimetallic Fabrication Methods. limitations In Shape And Batch Size Associated With Friction Stir Welding And Explosion Welding. galvanic Corrosion Issues Arising From The Use Of Interfacing Materials. market Applications joining Aluminum To Stainless Steel Pipes In Various Industries, Eliminating The Need For Bulky Flanges. aerospace Industry For Joining Lightweight Aluminum Parts To High Strength Steels Without Bolts Or Fasteners. heat Transfer Applications, Benefiting From Aluminum's Conductivity And Stainless Steel's Toughness. heating And Cooling Coil Manufacturing, Where Cost Reduction Can Significantly Impact Market Competitiveness. development Status: Trl 5 us Provisional Patent Application No. 63/639,461, “methods For Forming Bimetallic Structures And Associated Structures,” Bea Docket No. Ba-1510 inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services For The Development Of This Technology.

Details: Advanced Feedthrough Assembly Technology For Sealed Environments this Technology Introduces An Innovative Feedthrough Assembly Design Enhancing The Integrity Of Sealed Chambers In Demanding Environments. the Challenge: in The Demanding Environments Of Industrial Processes And Scientific Research, Maintaining The Integrity Of Sealed Chambers Is Crucial. These Chambers Are Pivotal For Containing Hazardous Materials, Sustaining High-pressure Or Vacuum Conditions, And Ensuring Precise Temperature Control For Ongoing Operations. Traditional Sealing Solutions Often Falter Under Extreme Conditions Such As Significant Temperature Variations And High Differential Pressures, Leading To Costly Leaks And Operational Downtimes. Addressing This Challenge, The Advanced Feedthrough Assembly Emerges As A Revolutionary Solution, Offering Unparalleled Reliability And Effectiveness In Sealing Technology. how It Works: the Technology Encompasses A Feedthrough Assembly That Includes A Feedthrough Conductor, A First Insulator, And A Metal Gasket System Designed To Maintain A Robust Seal Between The Feedthrough Conductor And The Insulator. It Is Engineered For High Performance In Sealed Chambers, Such As Those Required In Industrial Processes And Research, Where Maintaining A Controlled Environment Is Crucial. The Assembly Is Further Optimized Through Specific Manufacturing Methods, Including The Strategic Compression Of Metal Gaskets To Ensure Leak-proof Seals Under Conditions Of Significant Pressure Differences, High Temperatures, And Constrained Spaces. key Advantages: enhanced Seal Durability: With The Integration Of Copper Metal Gaskets, The Assembly Ensures A Long-lasting Seal That Withstands Extreme Environments. resistance To Harsh Conditions: Capable Of Maintaining Integrity Under High Pressures And Temperatures, Providing Reliable Performance Where Other Systems Might Fail. compact Design: The Streamlined Configuration Of The Feedthrough Assembly Makes It Suitable For Applications Where Space Is At A Premium. easy Integration: Features Like A Threaded Nipple On The Body Facilitate Straightforward Installation Into Existing Systems, Particularly Vacuum Chambers. problems Solved leakage In Sealed Chambers Due To Large Pressure Differentials seal Degradation At High Temperatures space Constraints In Chamber Design maintenance Of Controlled Environments For Industrial And Research Applications market Applications industrial Manufacturing: Ideal For Environments Requiring Rigorous Containment Measures, Such As In Chemical Processing And High-pressure Treatments. scientific Research: Serves Critical Roles In Laboratories Where Maintaining Specific Atmospheric Conditions Is Necessary For Experimental Integrity. aerospace And Defense: Can Be Deployed In Applications Requiring Robust Environmental Isolation, From Spacecraft To Advanced Military Research Facilities. development Status: Trl 5 us Patent Application No. 17/302,168, “feedthrough Assemblies, Induction Furnaces Including Such Feedthrough Assemblies, And Related Methods,” Bea Docket No. Ba-1146 inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services For The Development Of This Technology.

Details: Synthesis Of Tungsten Tetraboride (wb4) By Electric Field Assisted Sintering (efas) a Novel Method For Synthesizing Tungsten Tetraboride (wb4), A Material With Exceptional Hardness And Thermal Properties, Using Electric Field Assisted Sintering (efas). the Challenge: in The Pursuit Of Materials With Exceptional Hardness And Thermal Conductivity, Tungsten Tetraboride (wb4) Has Been Considered A Compelling Candidate Since The 1960s. Renowned For Its Potential In Enhancing Cutting Tools, Armor, And Nuclear Reactors, Wb4's Synthesis Has Been Limited By Technological Constraints, Yielding Products Often Inferior To Their Theoretical Capabilities. Enter Electric Field Assisted Sintering (efas) – A Modern Technique Set To Revolutionize Wb4 Production By Maintaining Precise Conditions Necessary For Optimal Material Characteristics. how It Works: electric Field Assisted Sintering (efas) Introduces A Sophisticated Approach To Wb4 Synthesis, Surpassing Traditional Methods Like Arc Melting Which Often Resulted In Impurities And Unwanted Phases Such As Wb2. Unlike Previous Techniques, Efas Employs Controlled Sintering Temperatures And Accurate Atomic Ratios Without The Need To Melt The Components, Thereby Preserving The Desired Wb4 Phase And Preventing Degradation In Material Hardness. This Process Has Been Demonstrated To Produce Wb4 Samples With Hardness Approaching Theoritical Maximum By Controlling The Granular Composition And Phase Outcomes Efficiently. key Advantages: enhanced Material Quality: By Avoiding The Melting Process, Efas Ensures The Production Of Wb4 With Minimal Impurities And Maximum Hardness. scalability: The Method Is Scalable, Capable Of Producing Larger Batches And Custom Sizes (up To 12" Discs), Which Was Previously Unachievable. cost-effectiveness: Utilizes Less Expensive Raw Materials And Optimizes The Synthesis Process, Reducing Overall Production Costs. radiation Resistance: Uniquely Suitable For Nuclear Applications Due To Its Neutron Absorption Capabilities And Resistance To High-temperature Degradation. problems Solved inconsistent Synthesis Quality And Low Yield Of Wb4 Using Traditional Methods high Cost And Complexity Of Large-scale Production Of Materials With Similar Properties lack Of Cost-effective And Efficient Materials For Extreme Thermal Environments And Radiation Shielding market Applications industrial Machining: Enhance The Longevity And Performance Of Machining Tools Used In Automotive And Aerospace Manufacturing. defense And Ballistic Protection: Imagine Lighter, More Effective Armor That Provides Enhanced Protection Against Various Threats. nuclear Safety: Boost The Safety And Efficiency Of Nuclear Reactors, Contributing To Sustainable And Safer Energy Solutions. development Status: Trl 3 us Provisional Patent Application No. 63/643,127, “methods Of Forming Refractory Metal Borides By Electric Field Assisted Sintering (efas),” Bea Docket No. Ba-1537 inl Tech Partnerships: Your Gateway To Innovation inl Offers Strategic Access To Proprietary Technology, Enhancing Small Business Growth And Contributing To Economic And Public Advancement. We Cater Licensing Terms To Each Business We Work With, Ensuring Mutually Beneficial Agreements. Engage With Our Diverse Technology Offerings To Propel Your Company Forward. learn More About Our Licensing Opportunities And The Support We Provide At Https://inl.gov/technology-deployment/. For Specific Discussions On How Your Business Can Benefit, Please Contact Td@inl.gov. inl’s Technology Deployment Department Focuses Exclusively On Licensing Intellectual Property And Partnering With Industry Collaborators Capable Of Commercializing Our Innovations. Our Goal Is To Commercialize The Technologies Developed By Inl Researchers. We Do Not Engage In Purchasing, Manufacturing, Procurement Decisions, Or Providing Funding. Additionally, This Is Not A Call For External Services To Assist In The Development Of This Technology.

Description: 2025 Royal Museums Greenwich Catering Tender

Description: Res/sfm: Dps For The Provision Of Catering Supplies

Description: Dynamic Acquisition System (SAD) Supply of Fresh Fruits and Vegetables All Seasons for the Catering Service of Various

Details: Award of the Concession for the Renovation and/or Redevelopment of the Areas; Financing of Investments; Operation, Maintenance and Upkeep of Facilities and Equipment; As Well as the Operation of the Fuel Distribution, Shop, Catering and Electric Vehicle Charging Service Activities of the Translay East and Translay West Areas, Located on the A28, in the Municipality of Le Translay, at the Concession Holder's Risk and Peril.

Description: Re-establishment of a collective catering solution at Cetim Nantes