Español Electrodes
High-purity nickel electrode for experiments in density, magnetism, and heat conductivity.
1-Inch Electrodes with 10mm Binding Posts
These 1-inch electrodes with 10mm binding posts are perfect for easy connection of a contact wire. Available in aluminum, lead, zinc, copper, brass, and bronze, each electrode measures approximately 1 x 5 inches and has an overall exposure surface of 65 square centimeters.
Key Features:
- 1-inch electrodes with 10mm binding posts for easy connection
- Available in aluminum, lead, zinc, copper, brass, and bronze
- Each electrode measures approximately 1 x 5 inches
- Overall exposure surface of 65 square centimeters
- Electrodes come with 10mm socket binding post terminals
Product Specifications:
| Product Name | 1-Inch Electrodes with 10mm Binding Posts |
| Available Materials | Aluminum, Lead, Zinc, Copper, Brass, Bronze |
| Dimensions | Approximately 1 x 5 inches |
| Exposure Surface | 65 square centimeters |
| Binding Post Terminals | 10mm socket |
Similar Products
- 1.5-Inch Electrodes with 10mm Binding Posts
- 2-Inch Electrodes with 10mm Binding Posts
- 1-Inch Electrodes with Alligator Clips
- 1-Inch Electrodes with Banana Plugs
- 1-Inch Electrodes with Screw Terminals
Note: These are similar products, and each product is different, so research is required to find the best fit for your needs.
CAUTION: Electrical conductivity can be hazardous. Use with caution and follow proper safety procedures when handling electrodes with binding posts.
Perfect for:
- Medical professionals
- Researchers in the field of neuroscience
- Biomedical engineers
- Academic institutions
- Manufacturers of medical equipment
- Individuals with a background in electrical engineering
Aluminum Electrodes
Our high purity aluminum electrodes are designed for scientific experiments, with precise dimensions of 5" x 3/4" x 3/64" (12cm x 2cm x ~1.2mm) and stamped with "AL" for easy identification. Each electrode weighs 6 grams and is individually packaged. They are for use in demonstrations, chemical experiments, and physics experiments related to density and heat conductivity.
Product Specifications
| Material | High purity aluminum |
| Dimensions | 5" x 3/4" x 3/64" (12cm x 2cm x ~1.2mm) |
| Identification Code | Stamped with "AL" |
| Weight | 6 grams |
| Packaging | Individual packaging (empaque individual) |
| Caution | Metal electrodes have sharp edges, handle with care. |
Applications and Benefits:
- for science teachers and students, chemists and researchers, physics enthusiasts, science fair participants, science museums and exhibits, and science hobbyists and DIY enthusiasts.
- for demonstrations, chemical experiments, and physics experiments related to density and heat conductivity.
- Can be used in electrochemistry experiments, galvanic cells, electroplating, and studies related to corrosion and water purification.
Key Features and Benefits
- High purity aluminum material for accurate experiment results.
- Precise dimensions and "AL" identification code for easy recognition.
- Individual packaging for convenience and safety.
Caution:
Metal electrodes have sharp edges, handle with care.
Brass Electrodes
These high‑purity brass electrodes are composed of a 65 % copper and 35 % zinc alloy, each weighing 16 g and measuring 19 mm × 125 mm. Stamped with the identification code “BS” and supplied in individual packaging, they are suited for detailed physical and chemical investigations of brass alloys.
Product Specifications
| Material | High purity brass |
| Dimensions | 19 mm × 125 mm (3/4 × 5 inches) |
| Weight | 16 g |
| Composition | ≈ 65 % copper, 35 % zinc |
| Identification Code | Stamped with “BS” |
| Caution | Metal electrodes have sharp edges. |
Applications and Benefits:
- Investigating the physical and chemical properties of brass alloys in chemistry labs.
- Demonstrating alloy composition and conductivity in educational settings.
- Adding to personal or institutional collections of metal specimens.
Key Features and Benefits
- High‑purity brass ensures consistent experimental results.
- Precise dimensions (19 mm × 125 mm) facilitate standardized testing.
- Clear “BS” identification code simplifies sample tracking.
- Individual packaging protects each electrode from contamination.
- Sharp‑edge caution highlighted for safe handling.
Caution:
Metal electrodes have sharp edges; handle with care to avoid injury.
Bronze Metal Plate
The Bronze Metal Plate is a high-purity alloy sheet measuring 125 × 20 mm and weighing 14 g. It consists of 90% copper and 10% tin and is stamped with the identification code BZ. This plate serves as a reliable metal electrode for a variety of scientific and engineering experiments, including voltaic and electrochemical cells, welding and soldering practice, physical and chemical property investigations of bronze alloys, materials-science and metallurgy experiments, and electrical conductivity and circuit testing.
Product Specifications
| Dimensions | 125 × 20 mm (L × W) |
| Composition | 90% Copper, 10% Tin |
| Material | Bronze alloy (high purity) |
| Identification Code | Stamped "BZ" |
| Weight | 14 g |
| SKU | BZFLAT |
| Caution | Metal edges are sharp; handle with care |
Applications and Benefits:
- Electrode material for voltaic and electrochemical cells
- Welding and soldering practice
- Physical and chemical property investigations of bronze alloys
- Materials-science and metallurgy experiments
- Electrical conductivity and circuit testing
Key Features and Benefits
- High-purity bronze alloy (90% Cu, 10% Sn) ensures consistent material properties
- Stamped identification code "BZFLAT" for easy tracking and inventory
- Precise dimensions (125 × 20 mm) and weight (14 g) for reproducible experimental setups
- Sharp-edge design suitable for electrode insertion and removal
- Versatile use in welding, soldering, electrochemistry, and physics demonstrations
Caution:
Metal edges are sharp; handle with gloves and avoid direct skin contact.
Carbon Electrode - High Purity Graphite Rod
(Pack Options Available)
This durable, high-quality graphite rod is designed for laboratory and industrial applications requiring superior conductivity and thermal properties. It is available in convenient pack sizes of 1, 10, or 100 rods to suit different project needs.
Key Features
- High purity, density and conductivity
- Durable
- 10 mm x 100 mm size
Product Specifications:
| Density: | 1.75 g/cc |
| Electric Resistivity: | 8-11 mega Ohm |
| Thermal Conductivity: | 121.1 W/m.k |
| Coefficient of thermal expansion: | 5.46 /ºC |
| Shore Hardness: | 42 HSD |
| Breaking Strength: | 38 MPa |
| Compressive Strength: | 65 MPa |
| Elasticity Modulus: | 9 Gpa |
| Gas hole ratio: | 17% |
| Granularity: | 13-15 micro |
Similar Products:
- Graphite Electrode - High Purity, 8 mm x 100 mm
- Carbon Electrode - High Density, 10 mm x 150 mm
- Graphite Rod - High Conductivity, 10 mm x 200 mm
- Carbon Rod - High Strength, 10 mm x 100 mm
- Graphite Electrode - High Temperature Resistance, 10 mm x 100 mm
Note: These are similar products, and each product is different, so research is required to find the best fit for your needs.
Perfect for scientists, engineers, and researchers in need of a high-quality graphite rod for various laboratory applications.
Carbon Electrode - Graphite Rod
Our Carbon Electrode - Graphite Rod is a highly conductive cylindrical graphite block, for forming electric arcs or as an electrode in basic electrolysis experiments. With a diameter of 10mm and a length of 100mm, this electrode is for students conducting experiments requiring a carbon electrode. The high conductivity and low density of the graphite material make it an choice for various applications.
Product Specifications
| Material | Graphite |
| Diameter | 10mm |
| Length | 100mm |
| Conductivity | High |
| Packaging | Single Pack, Pack of 10, Pack of 100 |
Applications and Benefits:
- for students conducting experiments requiring a carbon electrode
- Suitable for forming electric arcs or as an electrode in basic electrolysis experiments
- for experiments that require a highly conductive cylindrical graphite block
Key Features and Benefits
- Highly conductive graphite material
- Low density for performance
- 10mm diameter and 100mm length for precise applications
Caution:
This product is highly conductive and should be used with care. Always wear appropriate protective gear and follow proper safety protocols when working with electrodes.
Carbon Electrode, Flat
High-purity carbon electrodes for scientific and electrical experiments, also known as graphite electrodes, with electrical conductivity and thermal stability. Each electrode measures 125 x 25 x 5mm and has a smooth surface, making it safe and easy to handle during experiments. The electrodes are individually packaged and weigh 26g.
Product Specifications
| Material | Carbon (Graphite) |
| Dimensions | 125 x 25 x 5mm |
| Weight | 26g |
| Packaging | Individual packaging |
Applications and Benefits:
- Assembling voltaic cells and electrolysis experiments
- Electrical and electronic experiments
- Scientific experiments requiring high-purity carbon material
Key Features and Benefits
- High-purity carbon material
- electrical conductivity and thermal stability
- Individually packaged for convenience and safety
Caution:
Handle with care during experiments. Keep away from flammable materials.
Graphite Electrode Pair for Hoffman Electrolysis Apparatus
Introducing the Graphite Electrode Pair, a spare pair of carbon electrodes designed for use with the Hoffman Electrolysis Apparatus. These electrodes measure 100 x 5mm and are inserted in a rubber stopper with insulated lead wire. Made of high-quality graphite, they provide a reliable and long-lasting option for conducting electrolysis experiments. Whether you're a student or a professional, these spare carbon electrodes are an essential addition to your lab equipment.
Product Specifications:
| Product Name | Spare Pair Of Carbon Electrodes (Graphite Electrodes) |
| Material | Carbon |
| Size (L x D) | 100 x 5mm |
| Compatibility | Hoffman Electrolysis Apparatus |
| Features | Inserted in a rubber stopper with insulated lead wire |
Perfect for:
- Chemistry students
- Science teachers
- Electrolysis enthusiasts
- Lab technicians
- Research scientists
- Academic institutions
CAUTION: Please handle the carbon electrodes with care to avoid breakage or damage. Always use insulated lead wires to prevent electric shock. Do not touch the electrodes while they are in use as they may become extremely hot.
Socket Binding Post Electrodes
Socket binding post electrodes are designed for easy wire connections during scientific experiments. The 4mm socket binding post terminal allows for secure and effortless contact wire connections. These electrodes are perfect for various scientific experiments and are suitable for both educational and professional settings.
Similar Products
- Electrodes with Alligator Clips
- Electrodes with Screw Terminals
- Electrodes with Clamp-On Connectors
- Electrodes with Spring Clips
- Electrodes with Pin Connectors
Note: These are similar products, and each product is different, so research is required to find the best fit for your needs.
Perfect for:
- Scientific researchers and professionals
- Teachers and students in educational settings
- Anyone conducting experiments that require easy and secure wire connections
Caution: This product is intended for use in scientific experiments and should only be handled by trained professionals. Ensure proper safety measures are taken when handling electrodes and connecting wires.
Product Specifications:
| Dimensions | 50 x 125 mm |
| Exposure Surface | 125 square centimeters |
| Terminal Type | 4mm Socket Binding Post |
Key Features:
- 4mm socket binding post terminal for easy and secure connection
- Measures 50 x 125 mm
- Overall exposure surface of 125 square centimeters
- Perfect for various scientific experiments
- Suitable for educational and professional settings
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 as a 2‑pack, 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 |
| Quantity | 2 Electrodes |
| 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.
Lead Electrodes
These lead electrodes are designed for assembling voltaic cells or conducting various chemical and electricity experiments. Each electrode is stamped with a two-letter code (Pb) for easy identification. The dimensions are 125 mm x 20 mm, offering a versatile size for diverse applications in educational and laboratory settings. They are individually packaged, with a weight of 50 grams.
Product Specifications
| Material | Lead (Pb) |
| Dimensions | 125 mm x 20 mm |
| Stamp | "Pb" for identification |
| Weight | 50 grams |
| Packaging | Individual packaging |
| Applications | Voltaic cells Chemical experiments Electricity experiments |
Applications and Benefits:
- for assembling voltaic cells
- Useful in chemical and electricity experiments
- Stamped for easy identification
- Durable and versatile size
- Individually packaged for convenience
Key Features and Benefits
- Reliable choice for educational and laboratory use
- Handle with care due to the toxic nature of lead
- For more details, download the Safety Data Sheet
Caution:
Lead electrodes are a reliable choice for educational and laboratory use. Handle with care due to the toxic nature of lead. For more details, download the Safety Data Sheet.
High Purity Magnesium Electrode
magnesium electrode, marked with the letter Mg, and designed for various applications. Its dimensions are 24.5 mm (approximately 1 inches) by 125 mm (approximately 5 inches) by 1 mm (approximately 0.04 inches). Each electrode is protected by a plastic film, which guarantees its integrity and optimal performance until it's ready for use.
This magnesium electrode is ideal for projects that require a reliable source of magnesium ions or as a key component in electrochemical systems. Its thin profile and surface protection make it suitable for research, development.
Product Specifications
| Material | High-purity magnesium |
| Marking | Labeled with "Mg" |
| Dimensions | 24.5 mm x 125 mm x 1 mm (1 in x 5 in x 0.04 in) |
| Protection | Plastic film for integrity and performance |
| Approximate Weight | 5.9 grams |
Applications and Benefits:
- Magnesium Electrode for Science Experiments
- Production of small quantity magnesium filing (Magnesium powder)
- Chemical etching
Analysis:
| Element | % |
| Mg | 96.27 |
| Al | 2.48 |
| Zn | 0.94 |
| Mn | 0.300 |
| Pb | 0.001 |
Caution:
Handle with care to preserve the protective film and avoid contamination.
Magnesium Electrode Flat 3/4" X 5"
The Magnesium Electrode Flat 3/4" X 5" is a high-purity magnesium electrode, marked with the letter "Mg", and designed for various applications. Its dimensions are 19 mm (approximately 0.75 inches) by 125 mm (approximately 4.92 inches) by 1 mm (approximately 0.04 inches). Each electrode is protected by a plastic film, which guarantees its integrity and performance until it's ready for use. The electrode is packaged individually and has a weight of approximately 6 grams.
Product Specifications
| Material | High-purity magnesium |
| Marking | Labeled with "Mg" |
| Dimensions | 19 mm x 125 mm x 1 mm (0.75 in x 4.92 in x 0.04 in) |
| Protection | Plastic film for integrity and performance |
| Approximate Weight | 6 grams |
| Packaging | Individual packaging |
Applications and Benefits:
- Magnesium Electrode for Science Experiments
- Production of small quantity magnesium filing (Magnesium powder)
- Chemical etching
Key Features and Benefits
- High-purity magnesium for performance
- Protective film for integrity and performance
- Individual packaging for convenience
Analysis:
| Element | % |
| Mg | 96.27 |
| Al | 2.48 |
| Zn | 0.94 |
| Mn | 0.300 |
| Pb | 0.001 |
Caution:
Handle with care to preserve the protective film and avoid contamination.
Magnesium Sheet Large 8.5" X 11.75"
The Magnesium Sheet 8.5" X 11.75" Sheet is a versatile, high-performance material ideal for a range of general-purpose applications. Known for its excellent strength-to-weight ratio, this sheet is composed of approximately 95% magnesium, with 5% aluminum and zinc added to enhance its physical properties. Its compact 8.5" X 11.75" dimensions (216mm x 298mm) and 0.04-inch (1mm) thickness make it easy to handle and cut to size for specific project requirements. A protective film covers the surface to prevent scratches and damage during handling and processing, ensuring the sheet maintains its integrity and appearance.
This magnesium sheet is a reliable choice for DIY enthusiasts, engineers, and industrial professionals seeking a material that balances lightweight properties with durability. Whether for structural components, prototypes, or creative projects, it delivers consistent quality and performance.
Key Features
- Large 8.5" X 11.75" dimensions (216mm x 298mm)
- Composed of 96% magnesium with 3% aluminum, 0.7% Zinc and 0.3% Manganese.
- High strength-to-weight ratio for versatile use
- 0.04-inch (1mm) thickness, easy to cut
- Protective film to prevent surface damage
- Suitable for structural, creative, and industrial applications
Product Specifications
| Product Name | Magnesium Sheet |
| Dimensions | Large 8.5" X 11.75" dimensions (216mm x 298mm) |
| Composition | 95% magnesium, 5% aluminum and zinc |
| Purpose | General Purpose |
| Strength | High Strength-to-Weight Ratio |
| Thickness | 0.04 Inch (1 Millimeter) |
| Feature | Protective film for surface protection |
Perfect for Engineers, DIY enthusiasts, hobbyists, manufacturers, and industrial professionals.
Metal Electrodes, Set Of 6
This set of 6 metal electrodes is ideal for use in electrovoltaic cells or various chemistry and physics experiments. Each electrode is made from different metals, including iron, copper, zinc, aluminum, steel, and magnesium. The electrodes are carefully sized at approximately 120mm x 18mm x 0.75mm (5" x 1/2" x 1/32"), making them easy to handle and suitable for classroom or laboratory use. Their consistent dimensions and material composition ensure reliable performance during experiments. These electrodes are perfect for students, educators, or lab technicians looking to demonstrate electrochemical reactions or explore the properties of different metals in practical experiments.
The set of metal electrodes includes various metals that are commonly used in experiments involving electrovoltaic (or galvanic) cells, electrochemistry, and other physics and chemistry experiments. Here's a brief overview of how these metals might be used:
1. Iron (Fe)
- Properties: Iron is a reactive metal and can oxidize easily.
- Use: Commonly used in electrochemical reactions, such as rusting experiments, or as one electrode in electrochemical cells.
2. Copper (Cu)
- Properties: Copper is a good conductor of electricity and is relatively unreactive compared to other metals.
- Use: Frequently used as a positive electrode in electrovoltaic cells, due to its stability and conductive properties.
3. Zinc (Zn)
- Properties: Zinc is highly reactive and easily gives up electrons.
- Use: Commonly used as the negative electrode in electrochemical cells, like in a simple zinc-copper battery.
4. Aluminum (Al)
- Properties: Aluminum is a lightweight, reactive metal with a natural oxide layer that protects it.
- Use: Often used in chemical reactions to produce hydrogen or as an electrode in electrolytic cells.
5. Steel (an alloy of iron)
- Properties: Steel is more resistant to corrosion than pure iron, thanks to the presence of carbon and sometimes other elements.
- Use: Steel can be used in experiments similar to iron, but it is less prone to rusting.
6. Magnesium (Mg)
- Properties: Magnesium is a highly reactive metal, often used in pyrotechnics due to its bright flame when ignited.
- Use: Magnesium is frequently used in electrochemical cells as a very reactive metal, often as a negative electrode.
Applications:
- Electrovoltaic Cells (Galvanic Cells): You can use these metals to build simple electrovoltaic cells, where two different metals act as electrodes and a solution (electrolyte) allows ions to flow, generating electricity.
- Corrosion and Rusting Experiments: The set can be used to observe how different metals react with the environment (such as exposure to water or air).
- Electrolysis: These metals can be used in electrolysis experiments to separate chemical compounds into their elemental forms using an electrical current.
Key Features
- Set of 6 metal electrodes: iron, copper, zinc, aluminum, steel, magnesium
- Ideal for electrovoltaic cells and experiments
- Electrodes Aprox measure 127mm x 18mm x 1mm (5" x 1/2" x 1/32")
- Durable and reliable for laboratory use
- Suitable for chemistry and physics experiments
- Perfect for educators, students, and lab professionals
Product Specifications
| Electrode Material | Iron, Copper, Zinc, Aluminum, Steel, Magnesium |
| Dimensions | 127mm x 18mm x 1mm (5" x 1/2" x 1/32") |
| Applications | Electrovoltaic cells, chemistry experiments, physics experiments |
| Quantity | 6 electrodes (1 of each metal) |
| Usage | Educational labs, classrooms, science experiments |
| Weight | Lightweight, easy to handle |
Perfect for science students, teachers, lab technicians, science hobbyists, educational institutions
Nickel Electrode (Nickel Anode), 5" X 3/4"
The Nickel Electrode or Nickel Anodes is a high-purity (>99%) nickel electrode with dimensions of 5" x 3/4" x 3/64" (12cm x 2cm x 1.2mm). It is designed for use in demonstration, chemical experiments, and physics experiments related to density, magnetism, and heat conductivity. The electrode is suitable for single metal assemblies for voltaic cells or in various other chemical or electricity experiments.
Product Specifications
| Material | Nickel |
| Size (l x w) | 5" x 3/4" or 125 x 20mm |
| Purity | 99% |
| Weight | 14 gr |
| Packaging | Individually wrapped |
Applications and Benefits:
- Chemical experiments and physics experiments related to density, magnetism, and heat conductivity
- Electrochemical reactions, corrosion, oxidation, reduction, electrolysis, and electroplating studies
- Single metal assemblies for voltaic cells or other chemical and electricity experiments
Caution:
Warning: Metals have sharp edges. For professional use or use under supervision only.
Stainless Steel Electrode
Our Stainless Steel Electrodes are made of grade 314 stainless steel alloy, which is highly resistant to corrosion due to the content of nickel and chromium in its composition. These electrodes are suitable for various applications that require corrosion-resistant properties, including marine and chemical industries, and are available in individual packaging for convenience and protection.
Product Specifications
| Material | Stainless Steel Alloy (Grade 314) |
| Corrosion Resistance | Highly resistant due to nickel and chromium content |
| Dimensions | 12 cm x 2 cm x 1 mm (5" x 3/4" x 0.359") |
| Weight | 18 grams |
| Packaging | Individual packaging |
| Applications | Suitable for various applications that require corrosion-resistant properties, including marine and chemical industries |
| SKU | SSFLAT |
Applications and Benefits
- Marine industry applications
- Chemical industry applications
- Any application requiring corrosion-resistant properties
Key Features and Benefits
- Corrosion-resistant stainless steel electrodes
- Made of grade 314 stainless steel alloy
- Highly resistant to corrosion due to nickel and chromium content
- Individual packaging for convenience and protection
Caution:
These electrodes are suitable for use in environments that are prone to corrosion, such as in marine or chemical industries. Please ensure proper safety measures are taken when handling and using these electrodes in such environments.
Steel Wool And Iron Electrodes
Steel Wool And Iron Electrodes are an essential component for welding and metalworking. Made from high-quality steel, these electrodes are designed to provide a strong and durable bond between metals. They are ideal for use in a variety of applications, including automotive repair, construction, and metal fabrication. The steel wool component of the electrodes helps to remove any impurities or rust from the metal surface, ensuring a clean and smooth weld. These electrodes are easy to use and provide a reliable and long-lasting bond. Whether you're a professional welder or a DIY enthusiast, Steel Wool And Iron Electrodes are a must-have for any metalworking project.
Product Specifications:
| Product Name | Steel Wool And Iron Electrodes |
| Material | Steel |
| Type | Electrodes |
| Compatibility | Steel Wool And Iron |
Similar Products
- Stainless Steel Electrodes
- Cast Iron Electrodes
- Steel Wool Pads
- Iron Wool Pads
- Steel Wire Brushes
Note: These are similar products, and each product is different, so research is required to find the best fit for your needs.
CAUTION: Steel wool and iron electrodes can pose a hazard if not handled properly. Use with caution and follow all safety guidelines.
Target Group:
- Welders and metalworkers
- Construction workers
- DIY enthusiasts
- Industrial manufacturers
- Automotive mechanics
- Metal fabrication companies
Titanium Rod, Commercial Grade 2
These titanium (Ti) rods are high-quality and high-purity (Commercial Grade 2). Each rod measures 11 inches in length with a 1/8-inch diameter and is available in packs of 1 to 10.
Titanium is as strong as steel but 45% lighter. It is 60% heavier than aluminum but twice as strong. It is widely used as an alloying agent with aluminum, molybdenum, manganese, iron, and other metals. Titanium alloys are primarily used in aircraft and missiles due to their lightweight strength and ability to withstand extreme temperatures.
These rods are excellent for science experiments, metal collections, and functional applications. Their high strength makes them ideal for strength tests and material analysis.
Product Specifications
| Material | Titanium (Ti), Commercial Grade 2 |
| Length | 11 inches |
| Diameter | 1/8 inch |
| Grade | Grade 2 |
| Carbon (C) | <0.08% |
| Iron (Fe) | <0.3% |
| Oxygen (O) | <0.25% |
| Nitrogen (N) | <0.03% |
| Hydrogen (H) | <0.015% |
| Titanium (Ti) | Balance |
Applications and Benefits:
- Ideal for science experiments and strength testing
- Great addition to metal collections
- Used in aerospace, aviation, and missile applications
- Lightweight and strong for structural applications
- Resistant to corrosion and extreme temperatures
Caution:
Handle with care as titanium is a strong but rigid material. Ensure proper safety measures when cutting or machining.
Zinc Electrode, Flat, One Piece
The Zinc Electrode, Flat, One Piece is a high‑purity zinc sheet measuring 5 × ¾ in with a thickness range of 0.75 mm to 1 mm. It is stamped with the letters “Zn”, weighs 16 g, and is supplied as a single flat piece suitable for precise electricity and chemistry experiments as well as industrial die‑casting and alloy production.
Product Specifications
| Material | High‑purity Zinc Metal |
| Purity | High‑purity (≥99.9% Zn) |
| Identification | Stamped with letters “Zn” |
| Shape | Flat sheet |
| Dimensions | 5 × ¾ in (127 mm × 19 mm) |
| Thickness | 0.75 mm up to 1 mm |
| Weight | 16 g |
| Piece Count | One piece |
| Primary Applications | Electricity experiments, Chemistry experiments, Die‑casting, Metal collections, Alloy production (brass, nickel‑silver, commercial bronze) |
Applications and Benefits:
- Conduct controlled electrochemical reactions in laboratory electricity experiments
- Serve as a reactant or electrode in chemistry experiments requiring zinc
- Provide a reliable source material for zinc‑based die‑casting processes in automotive, electrical, and hardware industries
- Contribute zinc content for the production of alloys such as brass, nickel‑silver, and commercial bronze
- Suitable for inclusion in metal collection sets due to identifiable “Zn” stamping
Key Features and Benefits
- High‑purity zinc ensures consistent electrochemical performance
- Flat geometry and precise dimensions facilitate reproducible experimental setups
- Stamped “Zn” marking enables quick identification and inventory control
- Thickness range of 0.75 mm–1 mm balances mechanical strength with ease of handling
- Compact 5 × ¾ in size and 16 g weight allow easy storage and transport
- Malleable at 100 °C–150 °C, expanding usability for elevated‑temperature processes
- Compatible with a variety of industrial applications, including alloy formulation and die‑casting
Caution:
Zinc is brittle at ordinary temperatures but becomes malleable between 100 °C and 150 °C; handle with care, especially when working at elevated temperatures.
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