The Spreadsheet Bulk Upload (watch a quick video here ?) is excellent for making bulk updates/edits/reconciliations on your products.

Nuclear: Nickel alloys are deployed in nuclear reactors and spent fuel storage due to their resistance to radiation and high-temperature stability.

Electronics/ Electrical: Nickel alloys are found in electrical connectors and components due to their excellent electrical conductivity. They are employed in electrical heating elements, resistors and conductive wires.

Chromium enhances corrosion resistance and forms a protective oxide layer on the surface of alloys like stainless steel.

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Aerospace: Nickel alloys are used in aircraft components, engine parts and aerospace equipment due to their high strength, corrosion resistance and heat resistance.

Hastelloy® B-3: With exceptional resistance to hydrochloric acid at all concentrations and temperatures, Hastelloy B-3 is invaluable in chemical processing.

Power Generation: In power plants, nickel alloys are used in turbines, heat exchangers and boiler components that operate at high temperatures.

Petrochemical: In the petrochemical industry, nickel alloys are used for valves, heat exchangers, and piping systems to withstand aggressive environments.

For more details on corrosion-resistant alloys and their applications, refer to our article on various types of corrosion-resistant metals and their uses.

Whether you're doing a complete physical inventory count of your entire location, or routine cycle counts, is a tradition at most businesses, but it can be easy. Thrive has tools to suit every business and ensure your counts are entered accurately!

Marine: Marine applications include shipbuilding, offshore platforms and seawater handling equipment due to nickel alloys’ resistance to seawater corrosion.

Titanium is renowned for its low density and high strength and finds extensive use in aerospace, medical implants and sporting equipment.

Nickel alloys are renowned for their versatility and use in applications across a spectrum of industries, from aerospace to chemical processing. These alloys exhibit exceptional corrosion resistance, strength and heat resistance, making them vital for demanding environments. For expert advice and assistance in choosing the correct nickel alloy, contact NeoNickel today.

✓Nickel possesses magnetic properties, making it essential in electronic devices and equipment. This electrical conductivity adds to its utility, making it crucial in electrical connectors and components.

Automotive: Employed in exhaust systems, turbochargers and engine components, nickel alloys can improve performance and durability.

Inconel(R) 625: Exhibiting excellent corrosion resistance in both high-temperature and acidic environments, Inconel 625 is suitable for applications such as chemical processing and marine engineering.

The other option (if the discrepancies are entered via Spreadsheet Bulk Upload) is the Inventory Change Report. In this report, you'll see the differences in the "Added" and "Removed" columns. Please be aware of the time range you are running the report within so as not to include sales deductions.

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Incoloy® 800H/HT: These nickel-iron-chromium alloys exhibit outstanding strength and steadfast stability at elevated temperatures, making them indispensable in the petrochemical and nuclear sectors.

Once the changes are uploaded in Thrive (either through the bulk upload directly or Stocktake), the new counts will automatically sync to enabled sales channels.

Reporting: Use the Stocktake Discrepancy Report to pinpoint the changes (including cost information) and the Due For Stocktake Report to see what should have been counted. Any discrepancies will also show up on the Inventory Change Report.

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Rene 41: Rene 41 is a precipitation-hardening nickel alloy that combines exceptional strength with heat resistance, making it ideal for aerospace components exposed to high temperatures.

Corrosion resistance: Nickel alloys are highly resistant to corrosion, making them ideal for applications in corrosive environments such as chemical processing and marine industries. High Strength: With their excellent strength, especially at elevated temperatures, nickel alloys can ensure structural integrity in demanding conditions. Heat Resistance: Nickel alloys can withstand high temperatures without losing their mechanical properties, making them suitable for use in aerospace, power generation and high-temperature processing industries. Heat Resistance: Suitable for use in aerospace, power generation and high-temperature processing industries, nickel alloys can withstand high temperatures without losing their mechanical properties. Versatility: Nickel alloys can be tailored to specific requirements by adjusting their composition, making them versatile for various applications. Low Thermal Expansion: With their low thermal expansion coefficients, nickel alloys can maintain their shape and dimensions at different temperatures- reducing the risk of warping or distortion. High Electrical Conductivity: Some nickel alloys have exceptional electrical conductivity, making them suitable for electrical and electronic applications. Wear Resistance: Nickel alloys are highly wear-resistant, making them suitable for use in mining, manufacturing and construction equipment. Biocompatibility: Certain nickel alloys are biocompatible, making them suitable for medical implants and surgical instruments. Magnetic properties: Nickel alloys can be magnetised, making them useful in various magnetic applications. Longevity: Their resistance to corrosion and wear ensures a longer lifespan for components and structures. Weight Reduction: In industries like aerospace, nickel alloys can help reduce weight while maintaining strength, contributing to fuel efficiency and performance. Chemical compatibility: Nickel alloys are compatible with a wide range of chemicals, making them suitable for chemical processing equipment. Recyclability: Nickel alloys are recyclable, promoting sustainability and reducing the need for new raw materials. Low Maintenance: Components made from nickel alloys often require minimal maintenance, reducing downtime and maintenance costs.

✓The strength of nickel plays a critical role in components used in applications demanding structural integrity, notably in aerospace and power generation.

Inconel® 718: Distinguished for its extraordinary strength, particularly at elevated temperatures, Inconel® 718 stands as a go-to choice in the aerospace and gas turbine industries.

✓Nickel has strong corrosion resistance and its magnetic qualities are integral to the functioning of numerous electronic devices and equipment. Its corrosion resistance ensures longevity in corrosive environments like chemical processing and marine settings.

Molybdenum contributes to increased strength, particularly at elevated temperatures, making it a key element in high-temperature applications such as aerospace components and chemical processing equipment.

Alloy 20: Also known as Carpenter 20, Alloy 20 offers superior resistance to corrosion caused by sulfuric acid, as well as other corrosive chemicals and environments.

It is essential to recognise that the selection of a specific nickel alloy hinges on the particular requirement of an application, extending beyond strength to encompass factors like corrosion resistance, heat tolerance and more.

In industries such as aerospace, where high-strength materials are a necessity, nickel matrix precipitation hardening plays a pivotal role. By optimising the alloy composition and heat treatment, engineers can tailor the material to meet the precise requirements of demanding applications. Understanding the science behind solid solution strengthening with nickel as the matrix is crucial for enhancing performance and longevity in various high-stress environments.

Hastelloy® X: This nickel-chromium-iron-molybdenum alloy has exceptional strength and impressive resistance to oxidation, rendering it ideal for high-temperature environments.

————————————————————————————————————————————————————————- Monel, Incoloy, Inconel and Nimonic are registered trademarks of Special Metals Corporation. Hastelloy and Haynes are registered trademarks of Haynes International Inc. Waspaloy is a registered trademark of United Technologies Corp.

The following alloys are critical in industries where exposure to extreme heat and temperature fluctuations is a constant challenge, such as aerospace, power generation and petrochemical sectors. Their specific properties ensure reliable performance under extreme conditions, making them essential materials for advanced engineering and technology.

Entering the count: If you printed a hard copy, we recommend entering any discrepancies onto Stocktakes (that way, you can use the Stock Discrepancy Report). Otherwise, you can change the spreadsheet and import those counts.

If entering your discrepancies via a Stocktake is an option, that is what we recommend. The reason is that when you submit your final quantities, we will automatically calculate the total cost associated with the discrepancies on the Stocktake Discrepancy Report. The report also makes it easier to hone in on the changes made to the inventory count.

The science behind nickel alloys revolves around tailoring their microstructures at the atomic level, enabling them to withstand extreme conditions in various industries. Engineers and scientists continually push the boundaries of materials science to develop nickel alloys with ever-improving properties, making them vital for applications ranging from aerospace to petrochemicals. Understanding the intricacies of nickel alloy composition and microstructure is crucial to unlock their full potential and meet the ever-evolving demands of modern technology.

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Nickel’s melting point is a defining feature that holds significant implications in high-temperature applications. With a melting point of approximately 1,455 degrees Celsius (2,651 degrees Fahrenheit), nickel exhibits remarkable stability at elevated temperatures. This property makes it an indispensable element in alloys designed for applications such as gas turbines, aerospace components and industrial furnaces.

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Renewable Energy: Within wind turbines and solar panels, nickel alloys are used for their corrosion resistance and durability.

Conducting the count: Manually count and tally the products. If you have the same product in multiple areas, compile them and only enter the grand total for the entire location. It may be helpful to print out multiple copies!

Monel® K-500: Monel® K-500 showcases both high tensile strength and impeccable resistance to corrosion, making it a preferred choice for marine and chemical processing equipment.

Medical: Within the medical field, nickel alloys are used for implants, surgical instruments, and dental appliances due to their biocompatibility and corrosion resistance.

Nickel is a metallic element known for its versatility and strength in the world of chemistry. The following properties make nickel a versatile and indispensable material, driving innovation and progress across a wide range of sectors

Construction: In construction, nickel alloys find application in architectural facades, roofing and structural components.

The role of nickel in alloys is pivotal; it acts as a catalyst, enhancing their properties and overall performance. As a result, nickel alloys find applications in an array of industries, including aerospace, automotive and energy production, showcasing the invaluable contributions of nickel to our modern world. Here is a comprehensive list of applications and industries where nickel alloys play a crucial role:

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Textile: In the textile industry, nickel alloys are deployed in machinery parts for their resistance to abrasion and corrosion.

Solid solution strengthening, with nickel serving as a matrix for precipitation, is a cornerstone of materials engineering. The process involves the incorporation of alloying elements into a nickel matrix:

Waspaloy® Prized for its high tensile strength, creep resistance and corrosion resistance, Waspaloy(R) finds widespread use in aerospace and gas turbine engine components.

Oil and Gas: Nickel alloys find application in drilling tools, wellhead components and downhole equipment due to their resistance to sour gas and high-pressure environments. In mining applications, nickel alloys are used in tools, drilling equipment and conveyor systems due to their wear resistance.

The following benefits demonstrate the importance and versatility of nickel alloys across various industries, where their unique properties contribute to enhanced performance and durability:

Nickel alloys represent a versatile and invaluable category of materials, characterised by their unique compositions and exceptional properties. These alloys, primarily composed of nickel but often alloyed with elements like chromium, iron and molybdenum, exhibit a remarkable range of characteristics.

Nickel alloys are carefully designed to harness the exceptional properties of nickel while blending them with other elements to achieve desired performance characteristics. This alloying process involves precise ratios and controlled heat treatments, which optimise the alloy’s strength, corrosion resistance, heat resistance or other specific attributes.

Monel® 400: This nickel-copper alloy is known for its remarkable resistance to various corrosive elements, including seawater and chemical processing.

Each alloying element imparts specific properties to the base metal, allowing engineers and researchers to tailor materials for diverse applications. Understanding the characteristics and effects of these elements is fundamental to designing and developing materials with desired attributes, whether it’s corrosion resistance, strength or heat resistance.

Food processing: Nickel alloys are utilised in food processing equipment and packaging machinery for their hygiene and corrosion resistance.

Here are our three tools for performing an inventory count. Remember that you might use a combination of these tools, depending on what works best for you and your team.

Reconciliation Worksheets are great for manual physical inventory counts. This option provides you with a printable worksheet to perform your counts on. When the count is complete, you can enter the discrepancies via a Stocktake or Spreadsheet Bulk Upload.

Reporting: If you enter the discrepancies via Stocktake, create a Stocktake Discrepancy Report for that date. Otherwise, the Inventory Change Report will have all your changes under the "Added" and "Removed" columns.

Nickel boasts a relatively low density, controlled thermal expansion and excellent thermal conductivity. These characteristics contribute to its effectiveness in heat-resistant materials and heat exchange systems. Understanding how nickel’s unique properties align with the demands of high-temperature environments is essential for engineers and researchers seeking to enhance the performance and efficiency of various industrial processes.

No matter which option you choose to submit your counts, the logic for adding or subtracting units will remain the same.

Nimonic® 75: Nimonic® 75 is known for its excellent creep resistance and ability to withstand high temperatures. It’s used in gas turbine components and high-temperature applications.

Stocktakes (watch a quick video here ?) are easy to set up and help keep your products organized and counts accurate. For customers on Professional Plans and above, you can scan your counts using an external barcode scanner. You can also manually enter your counts.

Haynes® 230: This nickel-chromium-tungsten-molybdenym alloy with excellent high-temperature strength and stability is frequently employed in applications like gas turbines and industrial heating equipment.

Rene 41: As a precipitation-hardening nickel alloy, Rene 41 is renowned for its exceptional strength and resistance to creep, often seen in critical aerospace components.

NOTE: The quantity changes made on a Stocktake will also appear on the Inventory Change Report under the "Added" and "Removed" columns.

Inconel® 600: Inconel® 600 is celebrated for its outstanding resistance to high-temperature corrosion and oxidation. It’s widely used in furnace components, heat-treating equipment and aerospace applications.

✓Its exceptional heat resistance makes it ideal for high-temperature applications like gas turbines and nuclear reactors.

If you are still looking for all the units and come up short on your count, that will subtract from your total product count. When that happens, we assume the units are being deducted from an existing lot. The chosen inventory setting on your Company Info page will determine the lot selected.

Hastelloy® C-276: As a versatile nickel-molybdenum-chromium alloy, Hastelloy C-276 is celebrated for its outstanding resistance to a wide range of aggressive chemicals and acidic solutions.

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If you find additional products during your count, that will add to your total product count. When that happens, we assume the units come in at the previously established Default Cost.

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Electroplating: Nickel alloys are employed in electroplating to provide a corrosion-resistant and attractive finish on various products.

Chemical Processing: Nickel alloys are employed in chemical reactors, pipelines and equipment for their resistance to corrosive chemicals and acids. In chemical manufacturing, nickel alloys are used for reactor vessels, heat exchangers and pipes.

The characteristics and effects of alloying elements such as chromium, molybdenum, titanium and others are pivotal in the realm of materials science and engineering.

The following nickel alloys are preferred choices in industries where corrosion resistance is paramount, such as chemical processing, oil and gas, and marine applications. Each alloy’s unique composition and properties cater to specific corrosive conditions, ensuring the longevity and reliability of critical components.

Entering the count: Stocktakes allow you to scan or count manually. Conduct the counts and enter the quantity counted for approval.

The strength of nickel alloys is a dynamic quality influenced by their composition and heat treatment. Below are six nickel alloys celebrated for their remarkable strength in various applications:

As these elements dissolve into the nickel matrix, they form a homogeneous alloy, effectively blocking dislocation movement within the crystal lattice.

Hastelloy® X: With its exceptional strength and resistance to oxidation, Hastelloy X excels in high-temperature environments, making it a popular choice in gas turbine engines and industrial furnace applications.

Incoloy® 800/800H: These nickel-iron-chromium alloys offer impressive resistance to high-temperature environments, making them suitable for heat exchangers, petrochemical processing and nuclear power plants.

Entering the count: Write the counts on the worksheet. Any counts that don't match can be entered via one of the following:

Conducting the count: Generate the Edit or Reconcile Inventory Quantities OR Edit Variants. From there, you can either print off a hard copy to update or make updates directly to the spreadsheet.

Reporting: If you entered the discrepancies via Stocktake, create a Stocktake Discrepancy Report for that date. Otherwise, if you used the Bulk Upload Spreadsheet, the Inventory Change Report will have all your changes under the "Added" and "Removed" columns.

Incoloy® 825: This nickel-iron-chromium alloy with added copper and molybdenum, provides excellent resistance to corrosive media such as sulfuric and phosphoric acids.

NOTE: This feature is only available with Standard Plans and above. Click here for more information on our current plans.

This results in increased strength and hardness, as the presence of these alloying elements hinders the movement within the crystal structure. This material has been made to be exceptionally durable and resistant to deformation.