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Laboratory Support Stand with Triangular Cast Iron Base and Steel Rod
This assembly consists of a triangular cast iron base and a vertical plated steel rod, designed to function as a general-purpose laboratory support stand. The base is fabricated from high-mass cast iron to ensure a low center of gravity and high resistance to mechanical tipping. Its three-point geometry provides stable contact with the bench surface, compensating for minor surface irregularities and enhancing overall stability.
The base features a central threaded bore, machined to accept a 13 mm (1/2 in.) diameter rod with standard threading. The rod is composed of plated carbon steel, offering moderate corrosion resistance and sufficient rigidity under typical lab loading conditions. It has a total length of 500 mm (20 in.), suitable for vertical mounting of various laboratory fixtures such as clamps, rings, and holders.
To resist degradation in chemically active environments, the base is coated with a chemical-resistant enamel paint, which provides a protective barrier against spills and vapors encountered in routine laboratory operations.
Product Specifications
| Base Material | Cast iron |
| Base Design | Triangular, three-point contact |
| Base Finish | Chemical-resistant enamel coating |
| Rod Material | Plated carbon steel |
| Rod Diameter | 13 mm (1/2 in.) |
| Rod Length | 500 mm (20 in.) |
| Rod Mounting Interface | Threaded insertion into base (standard threading) |
Applications and Benefits:
- Structural support in laboratory apparatus assemblies
- Vertical alignment for chemical processing setups
- Support for titration and distillation equipment
- Mounting instrumentation in thermal experiments
- Resistant to tipping and surface irregularities
- Corrosion resistance in chemically active environments
Caution:
Threaded connection must be fully engaged before load is applied. Verify mechanical stability before use to ensure safe operation.
Bunsen Burner – LP Gas, Standard Type for Routine Laboratory Heating
This LP gas Bunsen burner is designed for routine laboratory heating applications. It features a plated burner tube and a rotatable air regulator for precise adjustment of the air-fuel mixture. The heavy-duty cast iron base ensures operational stability, while the serrated gas inlet provides a secure connection for flexible tubing.
Product Specifications
| Fuel Type | Liquefied Petroleum (LP) Gas |
| Burner Tube | Plated finish |
| Outer Diameter (Tube) | 11 mm (≈ 0.43 in) |
| Height (Tube) | 91 mm (≈ 3.58 in) |
| Air Regulation | Rotatable sleeve for adjustment of primary air intake |
| Gas Inlet Tube | Plated finish, serrated |
| Outer Diameter (Inlet) | 9 mm (≈ 0.35 in) |
| Length (Inlet) | 33.5 mm (≈ 1.32 in) |
| Base Dimensions | 45 mm diameter × 75 mm height (≈ 1.77 in × 2.95 in) |
| Total Height | 136 mm (≈ 5.35 in) |
| Base Material | Cast iron with baked enamel coating |
| Maximum Flame Temperature | ~1500 °C (≈ 2732 °F) |
Applications and Benefits:
- Routine laboratory heating procedures
- Adjustable flame for controlled heat levels
- Stable base construction for safe operation
- Compatible with standard lab gas tubing
- Rotatable sleeve for precise air regulation
Caution:
Use with proper supervision. Ensure tight gas connections and adequate ventilation during use.
Cast Iron Dust, High Carbon, Mesh 150
A high carbon cast iron powder suitable for sintering, melting, fireworks, and hand warmers. May also be used as a filler in resins or added to concrete for a rust effect. Includes some clumps naturally formed due to stacking pressure, which can be removed by re-screening, chopping, or grinding. Suitable for wood stains when mixed with vinegar, with clumps gradually disintegrating. Particles are slightly hydrofoabic to reduce fire risks; surfactant recommended for increased wetting properties in specific applications.
Product Specifications
| Mesh Size | 150 |
| Carbon Content | High |
| Clumping | Naturally formed, removable |
| Hydrophobic Properties | Slight, reduces fire risk with water |
Applications and Benefits:
- Sintering
- Melting
- Fireworks
- Hand warmers
- Filler in resins
- Concrete rust effects
- Wood stains with vinegar
- Oxygen absorbers
Caution:
Test and evaluate before large quantity orders. Free samples available for pickup, or purchase small quantities online for shipping. Add surfactant or detergent to water when used for hand warmers, oxygen absorbers, or rust effects to improve wetting. Store in a dry, cool place to prevent clumping.
Density Cubes, Metals Iron
These iron cubes are designed for density experiments in the classroom or laboratory, available in 10mm or 20mm sizes, with precise measurements for accurate and consistent results, made from durable iron material. The cubes are packaged individually, with a weight of 0.135 lb, and are for science teachers, students, and researchers. The iron material provides a high density, making it for demonstrating density concepts.
Product Specifications
| Material: | Iron |
| Sizes: | 10mm or 20mm |
| Package Dimensions: | 20 x 20 mm |
| Weight: | 0.135 lb |
| Density: | 7.9 g/cm³ |
Applications and Benefits:
- For density experiments in the classroom or laboratory
- For science teachers, students, and researchers to demonstrate density concepts
- for hands-on learning and experimentation
Key Features and Benefits
- Iron material for high density and precise measurements
- Precise measurements for accurate and consistent results
- Reusable packaging for convenient storage
- Durable iron material for long-lasting use
Caution:
Handle with care, as iron can be sharp and heavy. Avoid touching sharp edges and keep out of reach of children.
Iron Electrodes
These low‑carbon iron electrodes are flat sheets measuring 19 mm × 125 mm × 0.5 mm, each weighing 16 g and stamped with “FE”. Sold in packs, they are for constructing voltaic cells and conducting electrochemical, chemistry, and physics experiments.
Product Specifications
| Material | Low Carbon Iron Sheets |
| Dimensions (L × W × T) | 125 mm × 19 mm × 0.5 mm |
| Weight per Electrode | 16 g |
| Identification Code | Stamped with “FE” |
| SKU | FEFLAT |
Applications and Benefits:
- Construction of voltaic (galvanic) cells
- Electrochemical reaction studies
- Chemistry experiment setups requiring iron electrodes
- Physics experiments involving electrical conductivity and resistance
- Corrosion and material degradation testing
Key Features and Benefits
- Low carbon iron provides consistent electrical conductivity
- Precise dimensions ensure repeatable experimental results
- Stamped “FE” identification for easy tracking and inventory
- Flat sheet geometry simplifies mounting in cell assemblies
- Packaged as a set of two for convenient experiment preparation
Caution:
Metal electrodes have sharp edges; handle with protective gloves and store safely to avoid injury.
Iron Powder, High Purity, Hydrogen Reduced
High-purity, hydrogen-reduced, highly reactive, fine iron powder with a high surface area. Suitable for chemical reactions, magnetism experiments, and making magnetic paints. All particles are 150 microns or smaller.
Product Specifications
| Iron Content | >98% |
| Acid Insolubility | 0.0031 |
| H2-Loss | 0.009 |
| Apparent Density (HALL) | 2.41 G/CC |
| Particle Size Distribution | +80 Mesh: Trace -80/+100 Mesh: 0.8% -100/+140 Mesh: 14.6% -140/+200 Mesh: 25.8% -200/+325 Mesh: 30.3% -325 Mesh: 28.5% |
| HTS Number | 7205.21.0000 |
| CAS Number | 7439-89-6 |
Applications and Benefits:
- Chemical reactions
- Magnetism experiments
- Making magnetic paints
Additional Information:
For further details, visit the following resources:
Iron Powder, Coarse, Mesh 20
IRON12 is a special coarse iron powder with a spongy flake structure, produced from high-purity iron ore by hydrogen reduction. It is ideal for ground remediation, permeable reactive barriers, and filtration of specific air or gas contaminants. Additionally, it serves as a high-purity iron source for chemical reactions. Apparent density ranges from 1 to 1.5 g/cc.
Product Specifications
| Particle Size | Mesh 20 |
| Apparent Density | 1 - 1.5 g/cc |
| Screen Analysis | +20 Mesh: Trace - 2.0% -20 +60 Mesh: 30.0% - 70.0% -60 +100 Mesh: 10.0% - 35.0% -325 Mesh: Up to 12% |
Applications and Benefits:
- Ground remediation
- Permeable reactive barriers
- Filtration of air or gas contaminants
- Source of high-purity iron for chemical reactions
Iron Powder, Super Fine, Light
Super fine high-purity elemental iron powder with irregular, porous sponge-like particles. Manufactured using high-temperature metallurgical reduction processes with hydrogen gas. This powder is low density, non-flowing, and suitable for various applications.
Product Specifications
| Iron Content | >97.7% |
| Acid Insolubility | 0.90% |
| H2-Loss | 1.75% |
| Apparent Density (HALL) | Low <2.2 g/cm3 |
| Particle Size Distribution | -100 Mesh: 100% +200 Mesh: 0.1% +325 Mesh: 2.4% -325 Mesh: 97.5% |
| HTS Number | 7205.21.0000 |
| CAS Number | 7439-89-6 |
Applications and Benefits:
- Cold casting / resin casting
- Metal clay
- Magnetic pigment
- Fingerprinting powder
- Making magnetic paints
- Magnetic powder for tension control devices
Additional Information:
This product is no longer in production. Limited quantities available. Please consider IRON325AT or IRON325ZV for alternative solutions. For further details, visit:
Iron Powder, Ultra Pure 99.5%
High-purity fine iron powder made of high-purity iron by the water atomization method. Features an apparent density of >2.8 g/cc with a medium particle size distribution. Suitable for various applications requiring ultra-pure iron.
Product Specifications
| Apparent Density | 3 g/cc |
| HTS# | 7205.21.0000 |
| CAS# | 7439-89-6 |
| Sieve Analysis | +212 µm: 0% 180–212 µm: 2% 150–212 µm: 12% -45 µm: 10–30% |
Chemical Analysis (Typical)
| Fe | 99.5% |
| O-tot | 0.12% |
| C | 0.003% |
| S | 0.010% |
| P | 0.01% |
Applications and Benefits:
- High-purity requirements for industrial or scientific uses
- Applications requiring medium particle size distribution
- Water atomized iron suitable for precise manufacturing
Caution:
Handle in accordance with safety guidelines. Refer to SDS for details.
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