Lasting New Material(Lasting Advanced Titanium) is an industry leader in customer solutions. We have achieved numerous OEM and supplier qualifications and have a strong list of service providers. In addition, our quality certifications are AS9100, AS9120, PED, REACH and ISO 13485.
For environments prone to corrosion, titanium is a cost-effective solution. Titanium’s extreme corrosion resistance makes it an ideal material for the chemical processing industry. This corrosion resistance provides long product life and increases safety and reliability.
Titanium is the best material for vessels when handling corrosive compounds such as nitric acid, chlorine dioxide, organic acids, suppressed reducing acids, and hydrogen sulfide. It is used in the manufacture of containers, storage tanks, heat exchangers, coolers, mixers and piping systems, among others.
Titanium plays an important role in the power generation industry, particularly in turbine blade applications. It is also used in condenser systems and auxiliary heat exchangers due to its corrosion resistance, durability and long service life.
Titanium has emerged as a potential solution to steam turbine failures that can lead to power plant shutdowns. By using 6AL4V titanium blades in high-pressure turbines, you can not only improve turbine performance and reduce maintenance costs but also increase operating efficiency.
Titanium is a metal revered for its lightweight and high strength, making it ideal for sporting goods. It is particularly popular with golfers, cyclists, tennis players, wheelchair users and even those who wear glasses.
In 2008, 13% of China’s total consumption came from sports and leisure activities, with more than 1,000 tons of titanium used in the manufacture of golf equipment alone. The popularity of titanium bicycle frames is growing rapidly. Titanium frames are also used in eyewear, thanks to their lightness, skin-friendliness and strong anodised finish, which is suitable for dyeing bright colours.
Due to the corrosion of chemical production equipment, the reliable service life of many pieces of equipment is only 1-2 years, and in some cases only one or two months. Titanium has proven to have excellent corrosion and wear resistance, making it an ideal material for chemical equipment. It has successfully solved the serious corrosion problem in chemical production and has been widely used.
The chemical industry uses titanium materials in a variety of ways. The chlor-alkali, soda ash, vacuum salt, petrochemical fibre and other industries all use titanium. In addition, the inorganic salt and fine chemical industries benefit from integrating this material into their processes.
Lasting titanium specializes in offering premium metals for use in vital applications in the chemical processing, marine, power generation, desalination, automotive and more industries. We’ll work with you to meet your project needs anywhere. Our team is standing by and ready to help.
This comprehensive guide provides an expert overview of machining Titanium Grade 5 (Ti-6Al-4V). It explores the material's unique challenges—specifically heat management, chemical reactivity, and work hardening—and offers actionable strategies for tool selection, cutting parameters, and advanced cooling techniques like high-pressure and cryogenic systems to optimize productivity and tool longevity.
Discover how to achieve superior uniform thickness and flatness in titanium sheet cold rolling. This expert guide from Shaanxi Lasting New Material Industry Co., Ltd. explores the critical roles of roll gap control, lubrication, and vacuum annealing. Designed for procurement and engineering professionals, this article provides actionable insights into managing metallurgical challenges to meet the strictest aerospace and medical industry standards.
This article details the comprehensive, multi-stage quality assurance framework utilized by Shaanxi Lasting Titanium Industry Co., Ltd. to produce high-reliability welded titanium tubes. It covers critical aspects of metallurgical control, atmospheric shielding, rigorous NDT, and strategic sourcing guidance.
This article explores the critical importance of material purity for aerospace-grade titanium, explaining how physical and chemical analysis techniques ensure structural integrity. It details the role of interstitial impurities, the scientific methodologies used for quality control, and why comprehensive Material Test Reports (MTRs) are essential for aerospace safety. It serves as a professional guide for sourcing high-reliability titanium components.
This article provides an in-depth analysis of why AS9100 certification is essential for the aerospace supply chain. Designed for industry professionals, it highlights how this quality management standard ensures material traceability, risk mitigation, and compliance. It offers practical guidance for selecting qualified titanium suppliers and explains how certification acts as a strategic barrier against quality failures in mission-critical aerospace projects.
This article explores the critical role of titanium forging in the production of aerospace turbine components. It details the necessity of adhering to AS9100 quality management requirements, the technical advantages of CNC-controlled induction heating, and the importance of process validation and non-destructive testing. Expert insights from Lasting Titanium provide a guide for OEMs and suppliers aiming to maintain the highest standards of safety and structural integrity in turbine manufacturing.
This comprehensive guide examines the specialized application of titanium sheet etching for high-end aerospace decorative components. It details the photochemical etching process, explores the material's benefits—such as strength, corrosion resistance, and design flexibility—and provides expert insights from Shaanxi Lasting New Material Industry Co., Ltd. (Lasting Titanium) on how to optimize material supply for high-precision aerospace manufacturing projects.
This professional analysis explores the stability of the 2026 titanium bar supply chain, focusing on Chinese production dominance. It provides procurement professionals with actionable insights on identifying integrated manufacturers, emphasizing rigorous quality standards like AS9100D and ASTM E2375, and offers strategies to mitigate long-term supply risks for aerospace and medical OEMs.
This article provides a comprehensive comparison between ASTM B348 and AMS 4928 titanium bar specifications. It explores the technical distinctions, aerospace versus industrial applications, procurement strategies, and quality assurance measures essential for engineers and manufacturers navigating the global titanium market.
This article explores the strategic use of titanium plates in shipbuilding to reduce structural mass and enhance fuel efficiency. It details material grades, the importance of class certifications (ABS, DNV, etc.), and the comparative advantages over steel. It serves as an essential guide for marine engineers, shipbuilders, and procurement professionals.
This article provides a technical and expert-led analysis of using titanium tubes for high-performance exhaust weight reduction. It explores material grades (Gr.1, Gr.2, Gr.9), manufacturing standards (ASTM B338), and engineering strategies to improve vehicle agility. Ideal for automotive professionals, brand owners, and wholesalers seeking to source high-quality, lightweight titanium components.
This article explores the critical necessity of PED (2014/68/EU) conformity for titanium pipe exporters. By detailing the regulatory framework, the distinction between material inspection and system conformity, and the strategic importance of third-party verification, we provide a roadmap for achieving EU market access. Proper adherence to PED standards serves as a vital indicator of technical quality and global reliability.
Selecting the right titanium bar for chemical agitator shafts is essential to prevent costly equipment failure. This guide evaluates key titanium grades (2, 5, 7, and 12), focusing on their mechanical strength and corrosion resistance profiles. By highlighting the risks of crevice corrosion and the necessity of rigorous testing—such as ultrasonic inspection to international standards—we provide procurement and engineering professionals with the technical foundation to make informed decisions for high-performance chemical processing applications.
This article outlines why Vacuum Arc Remelting (VAR) is the mandatory standard for premium titanium forgings. By utilizing high-vacuum environments to eliminate gaseous contamination and Type II metallurgical defects, VAR ensures the homogeneity required for aerospace and medical applications. Shaanxi Lasting highlights the importance of process traceability and batch consistency, reinforcing the company's role as a reliable partner in the global titanium supply chain.
Expertly crafted for engineers, this guide outlines critical variables for choosing titanium plate thickness in vacuum chambers. Leveraging industry-leading expertise from Shaanxi Lasting Titanium, we explore mechanical, thermal, and manufacturing factors—including cost-effective material comparisons—to help you optimize design integrity and reduce project risks in high-vacuum applications.
This article provides an in-depth analysis of why REACH compliance is essential for exporting titanium products into the European Union. It clarifies the classification of titanium as an "article," details the critical nature of the SVHC Candidate List, and offers a strategic roadmap for OEMs and wholesalers to ensure supply chain security. Shaanxi Lasting New Material Industry Co., Ltd. is positioned as a trusted, compliant partner for high-performance titanium materials.
This comprehensive article details why ISO 13485 certification is the non-negotiable benchmark for titanium forging in the medical device sector. It covers the critical intersections of advanced metallurgy and clinical outcomes, the economic advantages of certified quality, and the technical rigors of process validation. Shaanxi Lasting New Material Industry Co., Ltd. is presented as an industry-leading expert committed to the precision and traceability required for modern orthopedic bone screw manufacturing.
This article examines how advanced hi-tech equipment is driving innovation in China’s titanium industry. It highlights the integration of high-tonnage hydraulic presses, AI-driven analysis, and automated quality systems in transforming production capabilities. The article offers procurement insights for global buyers, demonstrating how these technological advancements result in higher precision, better material utilization, and unparalleled traceability via integrated ERP/MES systems for aerospace and automotive sectors.
This article provides an in-depth analysis of the core value of titanium forgings in high-performance automotive engines. It focuses on the critical roles of titanium connecting rods and valves in reducing reciprocating inertia, increasing engine RPM limits, and enhancing throttle response. Integrating expert industry perspectives, it further examines titanium alloy selection strategies, the advantages of forging processes, and essential maintenance considerations, providing invaluable procurement and engineering guidance for engine developers.
This article provides an in-depth exploration of the necessity of custom titanium forgings for aerospace engine prototyping. It details the material science advantages—such as grain flow optimization—and the strategic selection of alloys like Ti-6Al-4V. It offers expert guidance on supplier selection, quality control standards, and technical considerations, positioning Shaanxi Lasting as a critical partner for aerospace innovation.