Iron ores are rocks and minerals from which metallic iron can be economically extracted. The ores are usually rich in iron oxides and vary in color from dark grey, bright yellow, or deep purple to rusty red. The iron is usually found in the form of magnetite (Fe3O4, 72.4% Fe), hematite (Fe2O3, 69.9% Fe), goethite (FeO(OH), 62.9% Fe), limonite (FeO(OH)n(H2O), 55% Fe) or siderite (FeCO3, 48.2% Fe).
Ores containing very high quantities of hematite or magnetite (greater than about 60% iron) are known as natural ore or direct shipping ore, meaning they can be fed directly into iron-making blast furnaces. Iron ore is the raw material used to make pig iron, which is one of the main raw materials to make steel 98% of the mined iron ore is used to make steel.
Item Specification
Fe: 57 Min
SiO2: 4 Max
Al2O3: 5.5 Max
Moist: 12 Max
P: 0.08 Max
S: 0.04 Max
+40mm: 5 Max
-6mm: 20 Max
LOI: 7 About
TI: 70 Min
AI: 15 Max
RI: 60 Min
RDI: 25 Max
DI: 10 Max
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes.As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
Engineered for excellence, our fine FE scrap undergoes advanced processing, delivering a product that meets the stringent demands of modern manufacturing processes.
This premium-grade iron ore offers a balanced composition, meeting industrial standards for use in steel manufacturing, construction, and other metallurgical applications. It is processed to provide optimal purity and mineral content, ensuring consistency in quality for various industrial uses.
Applications: This iron ore is suitable for:
Steel manufacturing
Metallurgical applications
Construction materials
Advantages:
High purity and minimal impurities
Consistent composition for predictable processing outcomes
Low levels of undesirable elements like sulfur and phosphorus
Iron ore steel pellets are small, spherical balls of iron ore, typically 8-16mm in diameter, that are produced from finely ground iron ore concentrate. These pellets are a crucial input in steelmaking, used in blast furnaces and direct reduction plants to produce hot metal and ultimately, steel. The pelletizing process involves binding the iron ore fines, often with binders like bentonite, and then hardening them through heating.
Heavy and relatively hard oxide
mineral, ferric oxide (Fe2O3), that constitutes the most
important iron ore because of its high iron content (50 to 60
to 70+ percent) and its abundance.
Gremlog Trading DMCC stands at the forefront of the metal recycling industry, offering a meticulously curated selection of carefully sourced and recycled metal scrap solutions. Our comprehensive range includes:
Cast Iron Scrap: Our cast iron scrap, derived from the recycling process, is subjected to thorough quality checks, ensuring its suitability for applications requiring robust and high-performance cast iron.
Aluminium Scrap: Crafted from precise recycling processes, our aluminium scrap adheres to stringent purity standards, ensuring optimal performance in the production of high-quality aluminum alloys.
Steel Scrap: Derived from the efficient recycling process our steel scrap undergoes rigorous processing to meet exacting specifications, guaranteeing consistency and reliability for diverse industrial applications.
Rebars: Our meticulously sorted and processed rebars are characterized by its uniformity and purity, ideal for applications demanding precise metallurgical properties.
Fine Iron Scrap: Engineered for excellence, our fine FE scrap undergoes advanced processing, delivering a product that meets the stringent demands of modern manufacturing processes.
Our cast iron scrap, derived from the recycling process, is subjected to thorough quality checks, ensuring its suitability for applications requiring robust and high-performance cast iron.
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
Ferric oxide 59.60%
Aluminum Oxide 13.90%
Sulfur dioxide 11.86%
Magnesium oxide 6.60%
Silicon dioxide 4.20%
Calcium oxide 2.70%
Manganese(II) oxide 0.39%
Nickel oxide 0.14%
Chromic oxide 0.14%
copper (II) oxide 0.08%
Titanium dioxide 0.07%
Potassium oxide 0.06%
Strontium oxide 0.05%
Vanadium oxide 0.03%
Zinc Oxide 0.03%
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
Ferric oxide 59.60%
Aluminum Oxide 13.90%
Sulfur dioxide 11.86%
Magnesium oxide 6.60%
Silicon dioxide 4.20%
Calcium oxide 2.70%
Manganese(II) oxide 0.39%
Nickel oxide 0.14%
Chromic oxide 0.14%
copper (II) oxide 0.08%
Titanium dioxide 0.07%
Potassium oxide 0.06%
Strontium oxide 0.05%
Vanadium oxide 0.03%
Zinc Oxide 0.03%
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility.
Our steel rebars are manufactured with precision Standards, offering exceptional strength, durability, and reliability for construction and infrastructure projects. The rebars are engineered with the following detailed specifications:
Mechanical Properties:
Yield Strength (Re): â?¥ 430 N/mm�²
Tensile Strength (Rm): â?¥ 620 N/mm�²
Ratio of Tensile Strength to Yield Strength (Rm/Re): â?¥ 1.28
Elongation: â?¥ 18%
Radius for Bend Test (degrees): 180
Applications:
Ideal for reinforced concrete construction projects such as residential, commercial, and industrial buildings, bridges, and
infrastructure projects.
Ensures high performance under tensile and compressive stresses.
Key Features:
Conforms to stringent national standards.
Enhanced mechanical strength and chemical stability.
Superior resistance to bending and elongation.
Packaging & Delivery:
Available in various lengths and diameters as per project requirements.
Standard export-grade packaging to ensure safe delivery.
Basalt rebar, also known as BFRP (Basalt Fiber Reinforced Polymer) rebar, is a construction material made from basalt fibers embedded in a polymer matrix. It's a sustainable alternative to steel rebar, offering benefits like corrosion resistance, high tensile strength, and being non-conductive. AI plays a role in optimizing its production, design, and application in various construction projects.
Rebar (short for reinforcing bar), known
when massed as reinforcing steel or reinforcement steel,
is a steel bar used as a tension device in reinforced
concrete and reinforced masonry structures to strengthen
and aid the concrete under tension. Concrete is strong
under compression, but has low tensile strength. Common
grades are 40, 60, 75, 80, and 100. The nomenclature for
the grades represents how much yield the rebar has. For
example, grade 40 rebar has a minimum yield strength of
40 KSI, which is equal to 40,000 PSI, whereas grade 80 rebar has a minimum yield
strength of 80 KSI or 80,000 PSI. Sizes from 8mm till 32 mm , 6 MT and 12 M
Gypsum rocks, gypsum powder, rock salt (industrial salt and deicing salt), food grade salt, sodium bicarbonate, limestone, white limestone (marble chips), sulphur (granular, lumps).
