TITANIUM (TI)
Description: Titanium is a strong, lightweight, and
highly corrosion-resistant metal. It has an excellent
strength-to-weight ratio and is biocompatible, making it
essential in high-performance applications.
Uses:
Aerospace (aircraft frames, jet engines)
Medical implants and prosthetics
Military applications (armor plating)
Chemical processing equipment
High-end consumer goods (luxury watches, sports
equipment)
Variations:
Titanium Alloys (e.g., Ti-6Al-4V) – Used in aerospace and
medical applications for enhanced strength.
Commercially Pure Titanium (CP Titanium Grades 1-4) –
Used for corrosion-resistant applications in marine and
chemical industries.
COPPER (CU)
Description: Copper is ahighly conductive, corrosion–
resistant metal with excellent thermal and electrical
properties. It has been used for thousands of years in
various applications.
Uses:
Electrical wiring and power generation
Plumbing and water systems
Telecommunications (fiber optic cables, connectors)
Industrial machinery (heat exchangers, motors)
Coinage and decorative applications
Variations:
Pure Copper (Electrolytic Tough Pitch – ETP Copper) –
Used in electrical applications for maximum
conductivity.
Copper Alloys (e.g., Brass, Bronze) – Used for
mechanical and decorative purposes.
Oxygen-Free Copper (OFC Coppe
ALLUMINIUM (AL)
Description: Aluminum is a lightweight, corrosion-
resistant, and highly conductive metal. It is one of the most
widely used metals due to its versatility, recyclability, and
cost-effectiveness.
Uses:
Construction (window frames, roofing, structural elements)
Automotive and aerospace industries (body panels, engine
components)
Electrical applications (power transmission lines)
Packaging (aluminum cans, foils)
Consumer electronics (laptops, smartphones)
Variations:
Aluminum Alloys (e.g., 6061, 7075) – Used in aerospace and
structural applications for improved strength.
Pure Aluminum (99%+) – Used in electrical applications due
to high conductivity.
Cast Aluminum – Common in automotive and machinery
components.
WOLFRAM (W)
Description: Tungsten, also known as Wolfram, is
one of the hardest and densest metals. It has an
extremely high melting point (the highest of any
metal) and excellent wear resistance, making it ideal
for high-stress applications.
Uses:
Cutting tools and industrial machinery (drill bits, saw
blades)
Aerospace and defense (missile components, radiation
shielding)
Electronics (filaments for light bulbs, electrical
contacts)
Medical applications (radiation shielding, surgical
instruments)
High-performance sports equipment (darts, golf club
weights)
Variations:
Tungsten Carbide (WC) – Used in cutting tools, wear-
resistant coatings, and industrial applications.
Pure Tungsten – Used in high-temperature
applications such as furnace components.
Tungsten Alloys (e.g., WHA – Tungsten Heavy Alloys)
– Used for military and aerospace applications.
Steel
We offer high-quality Tire-Derived Steel (TDS) recovered from end-of-life tires through a clean, efficient mechanical shredding and separation process. This steel is an eco-friendly, cost-effective alternative to virgin steel, ideal for use in foundries, steel mills, and various recycling applications.