Capacity: 900ml

Size/weight: 10×7.7×21cm/450g

Carton: 62×59.5×24.5cm/0.090m³

QTY: 20pcs

N.W./G.W.: 9.0/11.0kgs

In professional and commuting environments, the need for a large-capacity beverage container is growing steadily. A 900ml insulated stainless steel Tumbler addresses this requirement by balancing high volume with portability, thermal performance, and ergonomic handling. Its design—featuring a handle and flip lid—caters to daily office use, long commutes, and outdoor activities, providing both convenience and functional reliability.

Understanding the engineering, materials, and manufacturing considerations behind a 900ml tumbler is essential for procurement professionals, corporate buyers, and technical decision-makers who prioritize durability, performance, and compliance over aesthetic trends.

Core Concepts: Thermal Management and Insulation Technology

Double-Wall Vacuum Insulation

At the core of a high-performance 900ml tumbler is double-wall vacuum insulation, a technology derived from industrial thermal containers. Two stainless steel walls enclose a vacuum layer, which minimizes heat transfer through conduction and convection. This configuration allows hot beverages to remain at optimal drinking temperature for hours and cold drinks to stay chilled without condensation forming on the exterior.

Additional enhancements include reflective inner surfaces or electropolishing to reduce radiant heat loss. The combination of vacuum insulation and surface treatment ensures that large-volume drinks do not lose temperature rapidly, even in extended use or mobile settings.

Lid Design and Thermal Integration

The flip lid is not merely a convenience feature; it directly impacts thermal efficiency. High-quality flip lids incorporate food-grade silicone gaskets to maintain a secure seal while facilitating easy one-handed operation. Precision in lid manufacturing is crucial; gaps or inconsistencies can become the primary point of heat exchange, undermining the thermal performance of the tumbler.

Structural Design: Ergonomics, Stability, and Portability

Handle Integration

Given the 900ml capacity, ergonomic design is a priority. The integrated handle must support the weight of a fully filled tumbler while remaining thermally isolated from the inner chamber. Stress distribution is analyzed to prevent fatigue cracking, especially under repeated daily lifting and carrying. Handles are typically welded or mechanically bonded to the outer wall, avoiding thermal bridging and ensuring durability over thousands of cycles.

Body Geometry and Stability

The tumbler’s cylindrical or slightly tapered body is optimized for both portability and usability. It is designed to fit standard cup holders and provide a stable base when placed on desks or vehicle consoles. The external smooth finish enhances user comfort while ensuring that the vacuum layer is not compromised during handling.

Flip Lid Mechanism

The flip lid serves multiple purposes: it prevents spills, maintains insulation, and provides ease of access for drinking on the go. The hinge mechanism must withstand repeated opening and closing without alignment issues. High-quality lids use multi-component construction—rigid polymer frames paired with soft silicone gaskets—to achieve leak-proof performance without compromising ergonomics.

Materials: Food Safety and Longevity

Stainless Steel Core

The inner and outer walls are typically constructed from 18/8 (304) stainless steel, chosen for its:

Resistance to corrosion and oxidation

High mechanical strength under thermal cycling

Non-reactivity with acidic beverages

Taste neutrality

The inner wall is often electropolished to reduce micro-porosity, making cleaning easier and minimizing odor retention. The outer wall, especially in models with a smooth finish, may undergo bead blasting or powder coating to provide tactile uniformity and additional scratch resistance.

Lid and Handle Materials

Handles and lids are manufactured from food-grade BPA-free plastics and silicone. Silicone gaskets must maintain elasticity across a broad temperature range, ensuring consistent sealing for both hot and cold beverages. Materials are tested for durability, chemical stability, and thermal performance to ensure longevity.

Manufacturing Processes: Precision and Quality Control

Producing a 900ml insulated tumbler involves several precise manufacturing steps:

Deep drawing of stainless steel shells

Laser or TIG welding to seal the vacuum chamber

Vacuum evacuation and sealing validation

Surface finishing, including polishing, coating, or engraving

Automated leak and pressure testing

Even minor deviations in wall thickness, lid alignment, or handle bonding can compromise thermal efficiency or durability. Leading manufacturers employ inline inspection systems, automated torque testing, and vacuum integrity validation to maintain consistent quality across production batches.

Key Factors Affecting Quality and Performance

Several variables determine the long-term reliability of a large-capacity tumbler:

Vacuum integrity: Micro-leaks dramatically reduce insulation performance

Lid and gasket precision: Inconsistent sealing can lead to leaks and temperature loss

Material uniformity: Variations in stainless steel composition impact durability

Surface treatment: Influences hygiene, corrosion resistance, and tactile feel

Handle attachment strength: Ensures stability when fully filled

For B2B buyers, these engineering parameters often outweigh aesthetic considerations in determining product selection.

Supply Chain and Supplier Considerations

For institutional procurement, selecting the right supplier is crucial. Key evaluation criteria include:

Compliance with FDA, LFGB, and EU food-contact regulations

Traceability of raw materials and alloys

Documented quality assurance procedures

Experience in manufacturing vacuum-insulated containers

Capability to maintain batch consistency and provide performance testing data

Suppliers that provide material certifications, vacuum and pressure testing reports, and traceable production records are typically favored by corporate buyers and distributors.

Industry Challenges and Pain Points

Even mature products face common challenges:

Seal degradation over time, causing leakage

Handle loosening or detachment after repeated use

Inconsistent thermal performance across batches

Condensation or sweating if vacuum integrity is compromised

Addressing these issues requires rigorous process controls, material quality standards, and precision engineering.

Application Scenarios and Use Cases

The 900ml insulated tumbler is suitable for various professional and daily-use scenarios:

Office settings: Stable desk placement, spill prevention, and ergonomic handling

Commuting: Vehicle cup holder compatibility, single-hand use, and portability

Outdoor or travel use: Large volume capacity for extended hydration, durable construction

Corporate gifting or bulk procurement: Reusable alternative to disposable cups, aligning with sustainability goals

Field observations and case studies indicate that using ergonomically designed, large-capacity tumblers reduces waste and improves user satisfaction in both office and travel contexts.

Market Trends and Future Directions

Current trends in insulated tumbler development include:

Modular and replaceable lids to extend product life

Eco-friendly coatings and plastics to reduce environmental impact

Enhanced tactile and scratch-resistant surfaces for durability

Standardized thermal testing and certification for transparency

Sustainability and traceable supply chains are becoming central considerations for Western corporate and B2B buyers, driving manufacturers to improve material transparency and environmental compliance.

Frequently Asked Questions (FAQ)

Q1: Does the large volume impact thermal performance?

Thermal efficiency is primarily determined by vacuum quality, wall thickness, and lid sealing rather than volume alone. Properly engineered 900ml tumblers maintain temperature effectively.

Q2: How long can a 900ml tumbler keep beverages hot or cold?

High-quality double-wall vacuum tumblers maintain hot drinks for 6–8 hours and cold drinks for 8–10 hours under normal conditions.

Q3: Are flip lids leak-proof?

Leak resistance depends on gasket material, precision manufacturing, and proper assembly.

Q4: Is stainless steel safe for acidic beverages?

Yes. Food-grade 304 stainless steel is chemically stable and does not react with acidic or carbonated drinks.

Q5: How durable is the handle for daily use?

Handles that are mechanically bonded or welded to the outer wall, with appropriate material selection, withstand repeated daily use without deformation.

Conclusion

The 900ml Insulated Stainless Steel Tumbler with handle and flip lid exemplifies the convergence of material science, engineering precision, and ergonomic design in large-capacity beverageware. It meets practical demands for offices, commuting, and outdoor activities, offering high-volume hydration while maintaining thermal performance, portability, and leak-proof reliability. Its value lies not in novelty but in reliable performance, careful material selection, and precise manufacturing processes, making it an ideal choice for B2B procurement, corporate gifting, and professional daily use.