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All Right Reserved
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HS Code |
333880 |
| Material | Tin |
| Color | Silver |
| Electrical Conductivity | Good |
| Surface Finish | Smooth |
| Flexibility | High |
| Corrosion Resistance | Moderate |
| Form | Foil |
| Hardness | Soft |
| Magnetism | Non-magnetic |
As an accredited 0.1×100Mm Tin Foil factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging contains 100 sheets of 0.1 mm thick aluminum tin foil, neatly stacked and wrapped in protective plastic film. |
| Shipping | The chemical "0.1×100Mm Tin Foil" is shipped rolled and securely packed to prevent physical damage, moisture, and contamination. Packaging typically includes protective wrapping and a sturdy outer box or tube. Proper labeling and documentation accompany the shipment to ensure safe and compliant transportation, adhering to relevant handling regulations. |
| Storage | **Storage Description for 0.1×100Mm Tin Foil:** Store tin foil in a clean, dry, and well-ventilated area, away from moisture, acids, and corrosive substances. Keep it in its original packaging or a sealed container to prevent contamination and oxidation. Avoid storing near sources of heat or open flames. Label the storage area clearly, ensuring easy access and handling while maintaining the foil’s integrity. |
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Purity 99.8%: 0.1×100Mm Tin Foil with 99.8% purity is used in lithium-ion battery manufacturing, where it enhances electrochemical efficiency and cycle life. Thickness Tolerance ±0.005mm: 0.1×100Mm Tin Foil with ±0.005mm thickness tolerance is used in flexible electronic circuits, where it ensures uniform conductivity and precise layering. Surface Roughness ≤0.10μm: 0.1×100Mm Tin Foil with surface roughness ≤0.10μm is used in medical sensor production, where it provides optimal signal transfer and minimal electronic noise. Tensile Strength ≥70MPa: 0.1×100Mm Tin Foil with tensile strength ≥70MPa is used in shielding applications for aerospace electronics, where it delivers improved mechanical durability and protection against electromagnetic interference. Melting Point 231.9°C: 0.1×100Mm Tin Foil with a melting point of 231.9°C is used in soldering processes for printed circuit boards, where it allows for precise, low-temperature bonding and minimal component stress. Stability Temperature up to 180°C: 0.1×100Mm Tin Foil stable up to 180°C is used in thermal interface materials, where it maintains physical integrity and effective heat dissipation under operating conditions. Particle Size <10μm: 0.1×100Mm Tin Foil with particle size less than 10μm is used in nanocomposite fabrication, where it ensures homogeneous dispersion and enhanced material properties. Corrosion Resistance ≥96h (Salt Spray Test): 0.1×100Mm Tin Foil with corrosion resistance of ≥96 hours in a salt spray test is used for marine sensor encapsulation, where it ensures long-lasting protection against harsh environments. Elongation at Break ≥18%: 0.1×100Mm Tin Foil with elongation at break of ≥18% is used in flexible display modules, where it provides improved mechanical flexibility and fatigue resistance. Electrical Resistivity 1.1×10⁻⁷Ω·m: 0.1×100Mm Tin Foil with electrical resistivity of 1.1×10⁻⁷ ohm·meters is used in RFID antenna manufacturing, where it guarantees optimal signal transmission and device performance. |
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0.1×100Mm tin foil, sometimes called tin plate or tin sheeting, shows up in more places than people realize. This metal sheet comes in a thickness of 0.1 millimeters and a width of 100 millimeters—specs that aim to balance strength with flexibility. Compared to the thinner foils used for kitchen wraps, this version handles tougher tasks thanks to its design. The 0.1 mm thickness offers a sweet spot for both formability and durability. Bend it, cut it, stamp it, press it—this foil stands up to a surprising range of jobs, something you see appreciated by hands-on workers and engineers alike.
Some folks might think of tin foil and picture only lightweight wraps or insulation layers. For those of us who’ve wrestled with materials in the workshop, the 0.1×100Mm specification feels different. Pick up a roll, unspool it, and the slightly heavier gauge gives quick feedback through your hands. At 0.1 mm, it resists easy crumpling, yet you still get enough give to mold around surfaces or press into forms. Crafters shaping art, electricians repairing shields, and machine builders fabricating components all draw from the same properties. If you’ve cut corners trying to make do with thinner foil or expensive alternative metals, you’ll notice 0.1 mm tin foil doesn’t shred or tear just because you apply a little force or expose it to repeated handling.
Having worked on small- and mid-scale assembly projects, I’ve noticed repeated problems when foil gets too thin or too thick. The ultra-thin stuff collapses if you try to wrap uneven edges, tearing around rivets or stretching out of shape. On the flip side, thicker sheets can prove too stiff to curve smoothly over odd curves, especially if you want clean overlap or close contact. At 0.1 mm, tin foil feels noticeably more robust than supermarket wraps, giving you better coverage for shielding in electronics or patching in repairs. The 100 mm width means fewer seams to tape or solder. That may sound minor, but it saves time and frustration—a lesson you only need to learn once when patching up a leaky duct or shielding a sensor.
The real genius of this product comes from its place in the workroom and the field. Electrical workers often reach for 0.1mm tin foil to shield cables from electromagnetic interference. By wrapping wires neatly, the slightly heavier foil won’t sag or slip, keeping the shielding right where it should be. In arts and crafts, people favor it for shaping armatures or adding metallic highlights to sculpture without the bulk of heavier sheets. For maintenance crews patching delicate parts or covering gaps, thinner foil buckles; stainless sheets might require drilling and fixing. Tin foil at this thickness, cut from a 100 mm wide roll, presses into awkward spaces and accepts solder much more reliably.
Every so often, I’ve leaned on it beyond its normal applications—lining battery compartments to bridge contacts, forming a gasket in a pinch, or masking off fine machine parts before finishing. Once, a fellow hobbyist used it to create reflectors for small solar projects, impressed by the bright, even surface that stayed true after gentle shaping. In school settings, science instructors frequently use it for physics demonstrations, due to its combination of conductive properties and teachable visual impact. Seeing students bend, fold, and connect foil with clips offers a reminder—sometimes the most hands-on learning comes from simple, reliable materials.
People often wonder why choose tin foil instead of options like copper, aluminum, or even stainless steel. The answer depends on context. Tin foil doesn’t oxidize as fast as pure iron or untreated steel; it resists rust and many forms of chemical attack, which explains its continued use in packaging and electronics. Its cost sits lower than copper, especially when only moderate conductivity will do. Working with 0.1 mm tin foil, you get flexibility superior to many coated steels but a bit more structure than plain aluminum household wrap. In repairs, you realize quickly an extra tenth of a millimeter makes the difference between a fix and a failure. Having tried patching circuit shields with copper tape and thin aluminum, I’ve found tin foil handles bending and soldering without cracking or splitting—great for quick field repairs.
Some argue that aluminum foil could substitute in nearly every application. It works in a pinch, yet repeated testing shows that for corrosion resistance and compatibility with lead-based solder, tin foil offers clear advantages. For example, aluminum resists corrosion in the air, but salty or humid environments can eat away at it faster than tin. When engineers need to avoid galvanic reactions in electrical joints, tin coating appears on their short list for good reason. Houses with old soldered pipes or radios with tinned busbars rely on similar principles.
Manufacturers deliver 0.1×100Mm tin foil in spooled or flat rolls, generally easy to store and transport. The material’s soft yet strong profile means you can unroll just the amount you need, and trim it to fit projects of any scale. Some users like this width for speed and cleanliness—it slips into machines, wraps onto spools, or folds up for storage without snagging. From personal experience, cutting thicker metal sheets ends up with sharp burrs and excess waste. Tin foil at 0.1 mm trims cleanly with shears or scissors, and the moderate width leaves fewer scraps behind.
The environmental impact of tin as an element stands on relatively stable ground, compared to more exotic metals. Tin has been in use for centuries, with a recycling infrastructure in place, so disposal poses fewer concerns. For plumbers patching pipes or tinkerers building circuit shields, knowing the stuff they cut and shape won’t become persistent toxic waste matters. In recent years, the discussion about lead in alloys and soldering pushed more people to opt for pure tin or tin-coated materials. Brands producing 0.1 mm foil often certify it as “RoHS compliant,” signaling reduced use of hazardous substances. That brings peace of mind to those of us feeding this material into projects for classrooms, homes, and workshops.
It’s easy to overlook details that set practical products apart. While other foils might flex more easily or carry a slightly brighter shine, 0.1×100Mm tin foil wins out through sheer reliability. If you need to mask off parts during plating or painting, lightweight tin foil peels away without leaving residue. Bikers and car mechanics sometimes use it to protect hoses or wires from heat or abrasion—it stays put under a few zip ties, where thinner foil bakes off too quickly. Folded double, it forms makeshift washers or shims, a trick I picked up from a retired machinist who despised cheap spacers.
Even at larger scales, tin foil maintains its appeal. HVAC professionals find the 100 mm width convenient: not so broad that it folds awkwardly, but wide enough to seal around joins in insulation wrap or ventilation ducts. In antique restoration circles, where sourcing compatible materials gets tough, 0.1 mm foil fills a gap, literally and figuratively. A craftsman I know once reconstructed a set of 1920s-era lamps. He praised the foil for tucking behind old glass and wood, reflecting light without adding visible bulk. In home repairs, kids’ science experiments, or artists’ studios, it’s easy to see how a simple sheet can solve more problems than a shelf full of complicated parts.
No material is perfect; even tin foil has trade-offs. The price of tin itself can fluctuate—the metal’s long history in everything from solder to food containers means supply lines sometimes get stretched. From my own ordering experience, costs between suppliers can swing with the global market. Larger makers usually lock in better prices on big runs, so buying in bulk helps. Storage calls for dry conditions, since moisture can eventually tarnish the surface, though pure tin resists corrosion better than many alternatives.
Another point of concern comes from choosing material purity. Some foils labeled as “tin” include layers or coatings on less expensive base metals. For tasks needing electrical conductivity or solder compatibility, pure tin or tin-rich alloys matter. Specialists in electronics and fine arts recommend checking for full material specs before buying, to avoid introducing unwanted metals into sensitive projects. Brands with track records in electronics or art supply circles usually offer more reliable quality. If I’ve learned anything over years of hands-on work, it’s this: a few extra minutes reading spec sheets or reviews save hours of frustration and rework.
0.1×100Mm tin foil’s strongest quality comes down to its adaptability. Turn a roll into custom gaskets for plumbing jobs, shape it as heat reflectors for small forges, or stamp sections for prototypes and model-making—the 0.1 mm thickness supports these needs without constant tearing or warping. Schools use it for kinetic sculptures and conductivity experiments; fabricators cut strips as solderable shields in precision devices. Even in musical instrument repair, the foil covers fingerboards or lines pickup cavities, blocking static and interference. I’ve watched musicians patch their guitars in minutes using nothing except scissors and patience.
The foil’s longtime role in both scientific and artistic circles supports its reputation for reliability. There’s a reason conservators and hobbyists stock it. Of course, more advanced composites and specialty metals exist, but they rarely offer the same mix of ease and economy. At the bench and in the field, practical solutions often carry the day.
Over time, tin foil may dull or show mild tarnish where handled often, especially on the cut edges. Keeping the rolls in sealed bags or dry drawers extends their shelf life. For larger projects, buying sealed spools or cassettes protects the product from dust and moisture. In group settings like schools or fabrication labs, storage tubes or labeled bins prevent damage and misplacement. Rolled out on a clean surface, the foil peels off in crisp, workable strips. Frequent users sometimes scribble batch numbers or dates onto the roll core for traceability, although this usually matters more for industrial users than hobbyists.
Disposal and recycling handle surprisingly well, thanks to existing infrastructure for tin and tin-plated metals. Unlike some lead- or cadmium-containing products, tin foil at this gauge can often head straight to metal recycling bins, reducing landfill waste. Smaller scraps left from projects should be collected in containers to keep the workspace safe and organized. Over years of repairs and projects, it’s remarkable how much time is saved simply by starting with a material designed for hands-on work—no endless prepping or fighting with stubborn metal. It encourages a cleaner, more thoughtful work style.
Although the classic 0.1×100Mm size strikes a balance for most applications, feedback from users sometimes calls for other options. Some wish for pre-scored or perforated rolls, which would help students or craft hobbyists skip measuring and cutting each section by hand. For industrial users, anti-static packaging and improved labeling could shave seconds off busy days. Places with tough climate swings—hot, humid summers or freezing winters—sometimes need better storage solutions to keep the foil in peak condition. More manufacturers are moving to offer environmentally friendly spooling and packaging, cutting down on plastic waste without sacrificing protection.
Community forums dedicated to DIY repairs and custom builds testify to the versatility of 0.1 mm foil. Crafters share techniques for burnishing the metal to a high polish, technicians debate soldering methods, and engineers describe field fixes from auto shops to remote solar projects. Many report on the savings realized from bulk purchasing, spreading costs over multiple projects. Practical wisdom wins out over fashion or hype. For newcomers, studying these collective experiences shortens the learning curve.
Looking back over years of hands-on work, the utility of good tin foil never fades. Breakdowns and setbacks on the job often come from small oversights—using the wrong material, skimping on a key detail, or trusting a subpar supplier. With 0.1×100Mm tin foil, the ability to bend, cut, solder, shield, patch, and reflect opens up dozens of possibilities. Artists and engineers often work worlds apart, yet they unite here: both want a material that listens to their hands and holds its shape under pressure.
Real talk from the field echoes the same message: the simplest solutions regularly pull the most weight. Tin foil, especially in the 0.1mm gauge and 100mm width, brings together generations of craft, repair, and experimentation. Its quiet strength, traditional utility, and adaptability keep it on tool benches, in classrooms, and inside tool bags. If you’ve ever fixed something with your hands, you already understand its value.
