Find Verified Titanium Alloy Suppliers, Manufacturers and Wholesalers

Ilmenite consists of iron oxide and titanium and is considered as the main source of titanium dioxide, titanium sponge, and titanium ingots, used in important strategic industries such as manufacture of aircraft structures, missiles, submarines , space vehicles .

Black Sand - Heavy Mineral Rich Sand
Product Detailed Description by Trade Rock for Trading and Mining
Product Name:
Black Sand - Heavy Mineral Rich Sand
Origin:
Egypt
Producer & Exporter:
Trade Rock for Trading and Mining
Product Description:
Black Sand, also known as heavy mineral sand, is a naturally occurring deposit rich in valuable minerals such
as ilmenite, zircon, rutile, monazite, and magnetite. It is a strategic raw material for the production of titanium
dioxide (TiO2), ceramics, refractory materials, and rare earth elements. Trade Rock supplies high-grade
Egyptian black sand, sourced and processed to meet the diverse needs of industrial, metallurgical, and
energy markets.
Key Specifications:
- TiO2 (Ilmenite) Content: 30%-38%
- FeO / Fe2O3 Content: 20%-40%
- SiO2: <= 25%
- Moisture: < 1%
- Grain Size: 0.1-1.0 mm (customizable)
- Form: Fine to medium black granular sand
- Color: Dark black to grayish-black
- Packaging: Jumbo bags (1 ton), bulk in containers or loose vessel loads
Applications:
- Source of titanium dioxide for pigments and coatings
- Feedstock for steel, welding rods, and foundry industries
- Production of ceramics and refractory bricks
- Nuclear and rare earth element extraction (monazite)
- Water filtration and magnetic material recovery
Competitive Advantages:
- High content of valuable heavy minerals
- Sourced from Egypt's certified black sand reserves
- Quality controlled and SGS-inspected (on request)
- Custom processing and grading available
- Flexible logistics and FOB/CIF pricing options
Logistics & Delivery:
- FOB Port: Alexandria, Damietta, or Port Said, Egypt
- Minimum Order Quantity: 100 MT
- Monthly Supply Capacity: 10,000+ MT
- Delivery Time: 10-20 days from order confirmation
Compliance & Certification:
- ISO 9001:2015 Certified
- SGS or Intertek inspection available
- Complies with industrial mineral and export standards
Storage & Handling:
- Store in dry, shaded areas
- Avoid moisture exposure for best performance
- Use appropriate PPE during handling

ES MIG 4043 is one of the most widely used welding and brazing alloys and can be classified as a general-purpose filler alloy.

The silicon addi- tion results in improved �uidity (wetting action), making the alloy the preferred choice of welders.

The alloy is not sensitive to weld cracking and produces bright, almost smut-free welds. Not recommended for anodising. Non-heat treatable.

ES MIG 5183 is designed to provide the highest possible strength in the as-welded condition of alloy AA 5083 and similar high-magnesium alloys.

The more common ES MIG 5356 typi- cally fails to meet the as-welded tensile require- ments of AA 5083.

The alloy is typically used in marine and structural applications where high strength, high fracture toughness for impact resistance and exposure to corrosive elements are important.

The alloy is not recommended for elevated temperature applications due to its susceptibility to stress corrosion cracking. The alloy is non-heat treatable.

ES TIG 5356 is the most widely used welding alloy and can be classified as a general-purpose type �ller alloy.

ES TIG 5356 is typically chosen because of its relatively high shear strength.

The 5XXX alloy base material, welded with ES TIG- 5356, with a weld pool chemistry greater than 3% Mg and service temperatures in excess of 65C, is susceptible to stress corrosion crack- ing.

The alloy is non-heat treatable.

ES MIG 5356 is the most widely used welding alloy and can be classified as a general-purpose type filler alloy.

ES MIG 5356 is typically cho- sen because of its relatively high shear strength.

The 5XXX alloy base material, welded with ES MIG 5356, with a weld pool chemistry greater than 3% Mg and service temperatures in excess of 65�°C, is susceptible to stress corrosion cracking.

The alloy is non-heat treatable.

ES 347-16 is a niobium-stabilised, stainless welding electrode for titanium- and niobium-stabili-sed 18-8 steel.

It is particularly suitable for high- temperature applications.

Typical application: Process Piping, Power Generation Equipment, Welding 321 and 347 Stainless Steels, Food Processing and Pharmaceutical Equipment

ES TIG 4043 is one of the most widely used welding alloys.

It is used for welding AlMgSi types and AlSi alloys with up to 7% silicon. Not recommended for anodising. Non-heat treatable.

ES TIG 70S-3 is a copper-coated Mn-Si- alloyed W2Si/ER70S-3 solid rod for the GTAW of non-alloyed steels, as used in general construction, pressure vessel fabrication and shipbuil- ding.

ES TIG 70S-6 is a copper-coated Mn-Si-alloyed W3Si1/ER70S-6 solid rod for the GTAW of non-alloyed steels, as used in general construction, pressure vessel fabrication and shipbuil-ding.

Bare, corrosion-resistant, duplex welding rods for welding austenitic-ferritic stainless alloys of the 22% Cr, 5% Ni, 3% Mo types.

ES TIG 2209 has high general corrosion resistance. In media containing chloride and hydro- gen sulphide, the alloy has high resistance to intergranular corrosion, pitting and especially to stress corrosion. The alloy is used in a variety of applications across all industrial segments.

ES MIG 316LSi a continuous, solid , corrosion-resistant, chromium-nickel-molybdenum wire for welding austenitic stainless alloys of the 18% Cr -8% Ni and 18% Cr -10% Ni -3% Mo types.

ES MIG 316LSi has good general corrosion resistance; in particular, the alloy has very good resistance to corrosion in acid and chlorinated environments.

The alloy has a low carbon con- tent which makes it particularly recommended when there is a risk of intergranular corrosion.

The higher silicon content improves the welding properties such as wetting.

The alloy is widely used in the chemical and food processing industries, as well as in shipbuilding and various types of architectural structure.

ES MIG 347Si a continuous, solid, corrosion-resistant, chromium-nickel wire for welding austenitic chromium-nickel alloys of the 18% Cr-8% Ni type.

ES MIG 347Si has good general corrosion resistance.

The alloy is stabilised with niobium to improve resistance to the intergra-nular corrosion of the weld metal.

The higher silicon content improves the welding properties such as wetting.

Due to the niobium content, this alloy is recommended for use at higher temperatures.

ES MIG 2209 a continuous, solid, corrosion-resistant, duplex wire for welding austenitic-ferritic stainless alloys of the 22% Cr, 5% Ni, 3% Mo types.

ES MIG 2209 has high general corrosion resistance. In media containing chloride and hydrogen sulphide, the alloy has a high resis- tance to intergranular corrosion, pitting and espe- cially to stress corrosion.

The alloy is used in a variety of applications across all industrial seg- ments.

ES EA2 is a copper-coated, molybdenum-alloyed wire for the submerged arc welding of non-alloyed and low-alloyed steels.

ES EA2 Submerged arc welding wire (SAW) used for joining fine grain steels resistant to high temperatures, structural steels, construction naval vessels, pressure vessels, shipbuilding steels, pipes and pipeline steels up to grade X70, etc.

ES EA2 can be combined with ES FLUX 161, ES FLUX 171 and ES FLUX 181.

ES MIG 308LSi a continuous, solid, corrosion-resistant, chromium-nickel wire for welding austenitic chromium-nickel alloys of the 18 Cr-8% Ni type.

ES MIG 308LSi has good general corrosion resistance.

The alloy has a low carbon content, making it particularly recommended where there is a risk of intergranular corrosion.

The higher silicon content improves the welding properties such as wetting.

The alloy is widely used in the chemical and food processing industries, as well as for pipes, tubes and boilers.

ES NiCrFe-3 a nickel-based electrode for welding nickel alloys such as Inconel 600 and similar Inconel alloys, cryogenic steels, martensitic to austenitic steels, dissimilar steels, heat-resistant steels and castings with limited weldability.

High creep resistance up to 815�°C, High resistance to embrittlement, High toughness also at low temperature (-196�°C), High resist-ance to carburization and extra alloyed with ~6% Mn to provide hot cracking resistance.

Bare, corrosion-resistant, chromium-nickel-molybdenum rods for welding austenitic stainless alloys of the 18% Cr-8% Ni and 18% Cr-10% Ni- 3% Mo types.

ES TIG 316L has good general corrosion resistance, particularly to corrosion in acid and chlorinated environments.

The alloy has a low carbon content which makes it particularly recommended when there is a risk of intergranu- lar corrosion.

The alloy is widely used in the che- mical and food-processing industries, as well as in shipbuilding and various types of architectural structures.

ES TIG 1100 is highly resistant to chemical attack and weathering.

It is a relatively soft alloy that is very formable and it is used extensively in thin-gauge and foil products.

It has good welding characteristics. One desirable characteristic of the alloy is the bright finish obtained by anodizing. Non-heat treatable.

ES MIG 1100 is highly resistant to chemical attack and weathering.

It is a relatively soft alloy that is very formable and it is used extensively in thin-gauge and foil products.

It has good welding characteristics.

One characteristic feature of the alloy is the bright finish obtained by anodising.

Non-heat treatable.