| Today's price of titanium materials in China |
| Titanium material price |
| product |
Specification |
Price (yuan/kg) |
rise and fall |
area |
Remark |
| titanium plate |
5-10 mm |
80-82 |
-- |
Nanjing |
Factory price |
| titanium plate |
5-10 mm |
80-82 |
-- |
Changshu |
Factory price |
| titanium plate |
5-10 mm |
80-82 |
-- |
Jiangyin |
Factory price |
| titanium plate |
5-10 mm |
80-82 |
-- |
Donggang |
Factory price |
| titanium plate |
5-10 mm |
80-82 |
-- |
Baoji |
Factory price |
| titanium plate |
5-10 mm |
80-82 |
-- |
Shanghai |
Factory price |
| pure titanium tube |
25*1mm |
104-106 |
-- |
Baoji |
Factory price |
| |
| Titanium ingot price |
| product |
Price (RMB/kg) |
rise and fall |
area |
Remark |
|
| TA1 |
54-56 |
-- |
Baoji |
Ex-factory price including tax |
| TA2 |
51-53 |
-- |
Baoji |
Ex-factory price including tax |
| TC4 |
64-65 |
-- |
Baoji |
Ex-factory price including tax |
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Q: What is titanium sheet?
A: Titanium sheet is a flat, rolled form of titanium or titanium alloy, typically thin and versatile for aerospace, medical, marine, and chemical applications.
Q: Titanium sheet definition and main characteristics?
A: It is a wrought product with high strength-to-weight ratio, excellent corrosion resistance, and biocompatibility; easily formed and welded.
Q: Difference between titanium sheet and titanium plate?
A: Sheet is thinner (generally <6 mm), plate is thicker; distinction based on thickness and typical usage.
Q: Common types of titanium sheets – pure titanium vs titanium alloys?
A: Pure titanium sheets (Grades 1–4) for corrosion resistance; alloy sheets (e.g., Grade 5 Ti‑6Al‑4V) for high strength and temperature resistance.
Q: Thickness range of titanium sheets (e.g., 0.1 mm to 100 mm)?
A: Typically 0.1 mm to around 6 mm for sheet; thicker forms classified as plate up to 100 mm or more.
Q: Common titanium sheet grades (Grade 1, Grade 2, Grade 5, Grade 7, etc.)?
A: Widely used grades: Grade 1 (softest, most ductile), Grade 2 (most common CP), Grade 5 (Ti‑6Al‑4V, strongest), Grade 7 (corrosion‑resistant with Pd).
Q: Difference between commercially pure titanium sheets and alloy sheets?
A: CP sheets offer superior corrosion resistance and formability; alloy sheets provide higher mechanical strength and temperature stability.
Q: Properties of Grade 2 titanium sheet (most common) vs Grade 5 (Ti‑6Al‑4V)?
A: Grade 2: ~345 MPa tensile strength, excellent corrosion resistance; Grade 5: ~895 MPa tensile strength, heat treatable, higher strength-to-weight.
Q: Corrosion resistance of different titanium sheet grades?
A: All grades resist seawater, chlorides, and acids; CP grades excel in oxidizing environments; Grade 7 enhanced in reducing acids due to palladium.
Q: Strength and ductility comparison of titanium sheet alloys?
A: Alloys like Grade 5 have high strength but lower ductility than CP grades; CP grades prioritize formability and toughness.
Q: Physical properties of titanium sheet – density, melting point, thermal conductivity?
A: Density ~4.51 g/cm³, melting point ~1668 °C, thermal conductivity ~21.9 W/m·K (lower than steel).
Q: Chemical properties of titanium sheet – reactivity with acids, alkalis, and seawater?
A: Forms passive oxide layer, highly resistant to acids (except HF), alkalis, and seawater; very stable in marine and chemical environments.
Q: Tensile strength and yield strength of titanium sheets by grade?
A: Grade 2: TS ~345 MPa, YS ~275 MPa; Grade 5: TS ~895 MPa, YS ~825 MPa (annealed condition).
Q: Fatigue resistance and crack propagation behavior of titanium sheet?
A: Excellent fatigue resistance; crack propagation slow due to tough oxide layer and microstructure.
Q: Oxidation and high-temperature stability of titanium sheet?
A: Stable up to ~400–600 °C in air; forms protective oxide; above this, oxidation rate increases.
Q: How is titanium sheet produced (hot rolling, cold rolling, annealing)?
A: Produced by hot rolling slabs to rough thickness, cold rolling for precision, followed by annealing to restore ductility.
Q: Key steps in titanium sheet manufacturing (slab preparation, rolling, heat treatment)?
A: Prepare titanium slab, preheat, hot roll to intermediate thickness, cold roll to final gauge, anneal, level, and finish.
Q: Equipment used for titanium sheet production (rolling mills, furnaces)?
A: Reversing hot mills, cold rolling mills, vacuum or inert‑gas furnaces for annealing.
Q: Challenges in producing thin-gauge titanium sheets (dimensional accuracy, surface finish)?
A: Springback, edge cracking, maintaining uniform thickness, and avoiding surface defects require precise control.
Q: Surface treatments for titanium sheets (polishing, pickling, coating)?
A: Polishing for reflectivity, pickling to remove oxide scale, coating (e.g., PVD) for wear or aesthetic purposes.
Q: What are the applications of titanium sheet in the aerospace industry (aircraft skins, engine components)?
A: Used for aircraft skins, firewalls, bulkheads, and compressor blades due to high strength, low weight, and heat resistance.
Q: What is the use of titanium sheet in chemical processing equipment (reactors, heat exchangers)?
A: Ideal for reactors, vessels, and heat exchangers because of exceptional corrosion resistance to acids, chlorides, and aggressive chemicals.
Q: What is titanium sheet used for in the marine and offshore industry (ship hulls, desalination plants)?
A: Applied in ship hulls, propeller shafts, and desalination plant components for resistance to seawater corrosion and biofouling.
Q: What is titanium sheet used for in medical implants and surgical instruments (biocompatibility)?
A: Used for bone plates, dental implants, joint replacements, and scalpels owing to biocompatibility, corrosion resistance, and non-toxicity.
Q: What is titanium sheet used for in the automotive industry (exhaust systems, lightweight structures)?
A: Used in exhaust systems, turbocharger housings, and suspension parts to reduce weight and withstand high temperatures.
Q: What is titanium sheet used for in architectural and decorative purposes (corrosion resistance, aesthetics)?
A: Employed in facades, roofing, handrails, and sculptures where durability, corrosion resistance, and modern appearance are valued.
Q: What are the international standards for titanium sheet (ASTM B265, AMS, ISO)?
A: ASTM B265, AMS 4902/4911, and ISO 5832 specify composition, mechanical properties, and dimensions for aerospace and industrial use.
Q: What is the Chinese national standard for titanium sheet (GB/T)?
A: GB/T 3621 covers grades, dimensions, tolerances, and test methods for titanium and titanium alloy sheets in China.
Q: What are the dimensional tolerances and flatness requirements for titanium sheets?
A: Tolerances vary by thickness and grade; flatness typically within 1–3 mm per linear meter depending on specification.
Q: What are surface finish specifications (mill finish, polished, brushed)?
A: Mill finish (as rolled), polished (smooth reflective), brushed (linear satin texture); selected by application and aesthetic needs.
Q: What are the testing methods for titanium sheet quality (UT, RT, tensile testing, corrosion testing)?
A: Ultrasonic testing (UT), radiographic testing (RT), tensile/compression tests, and salt spray or immersion corrosion tests.
Q: What is the titanium sheet price per kg or per square meter (market trends)?
A: Price varies by grade and size; ~$30–60/kg for CP sheet, higher for alloys; market trend depends on raw material and demand.
Q: What factors affect titanium sheet price (raw material cost, production capacity, demand)?
A: Feedstock cost, energy prices, mill capacity, aerospace/medical demand, and import/export policies influence pricing.
Q: How should titanium sheet be handled (avoiding contamination, scratching)?
A: Use clean gloves, avoid sliding over rough surfaces, and store/transport in protective packaging to prevent contamination and scratches.
Q: What are the storage conditions for titanium sheet (moisture, temperature control)?
A: Store in dry, temperature‑controlled areas; keep wrapped to prevent moisture and surface oxidation.
Q: What are the cutting methods for titanium sheet (laser cutting, waterjet, shearing)?
A: Laser cutting for precision, waterjet for thick or complex shapes, shearing for straight edges in thinner gauges.
Q: What are the forming and bending techniques for titanium sheet (cold forming, hot forming)?
A: Cold forming for thin gauges and simple bends; hot forming above 300–400 °C for complex shapes to avoid cracking.
Q: What are the welding and joining methods for titanium sheet (TIG, MIG, electron beam welding)?
A: TIG and MIG for manual/automated welding; electron beam for high precision and deep penetration in vacuum.
Q: How to prevent galling and seizing during titanium sheet machining?
A: Use sharp tools, correct speeds/feeds, ample lubrication, and avoid excessive pressure; cobalt‑free tool coatings can help.
Q: How does titanium sheet compare with stainless steel sheet (weight, corrosion resistance, cost)?
A: Titanium is lighter, more corrosion resistant (especially in chlorides), but higher cost.
Q: How does titanium sheet compare with aluminum sheet (strength, durability, application suitability)?
A: Titanium is stronger and more durable, suitable for high‑stress/heat environments; aluminum is lighter but less strong and corrosion‑resistant.
Q: How does titanium sheet compare with carbon steel sheet (corrosion resistance, longevity)?
A: Titanium far superior in corrosion resistance and longevity; carbon steel requires coatings/protection in harsh environments.
Q: What are the environmental benefits of using titanium sheet (long lifespan, recyclability)?
A: Long service life reduces replacements; fully recyclable without property loss, lowering lifecycle environmental impact.
Q: What are sustainable production practices for titanium sheet (energy efficiency, waste reduction)?
A: Use energy‑efficient processes, recycle scrap and offcuts, optimize rolling schedules, and minimize machining waste.
Q: What are the recycling methods for titanium sheet scrap?
A: Collect clean scrap, melt in vacuum arc or electron beam furnaces to produce new titanium ingots or mill products.
