All categories
Featured selections
Trade Assurance
Buyer Central
Help Center
Get the app
Become a supplier
(802 products available)
Ready to Ship
Ready to Ship
Suppliers offer these types of gaussmeters in bulk to buyers.
This meter reads magnetic fields in digital format. It measures up to 2000μT, displays the strength on a screen, and stores data for later use. Users like it for its accuracy in industrial checks.
This tool measures magnetic fields in teslas. It gives clear readings, some even with two sensors for fast checks. Factories use it to find strong magnets or metal parts.
This meter measures magnetic fields in three directions at once. It checks all field lines, saving time on big tasks. It works well in labs and outdoor sites.
This Gaussmeter shows readings on a needle dial. The needle moves to show the field strength. It works best for quick, small checks and costs less than digital types.
This meter measures tiny magnetic fields. It reads in microteslas, giving fine data for small tasks. It helps in labs to test weak fields and check small parts.
Buyers need to keep these uses in mind when selecting gaugemeters.
Gaussmeters measure fields in factories and labs. They help in making sure gadgets work right. The data keeps machines from failing and helps in fine-tuning them.
These meters work with magnetic gauges to check coatings. They ensure layers are even on metal parts. This leads to longer-lasting tools and fewer breaks. The checks keep quality high in the factory.
Gaussmeters test motor strength in big machines. They find weak spots early, so repairs can happen fast. This avoids big costs from broken motors and keeps machines running well.
They find metal fatigue or flaws by checking magnetic fields. This stops bad parts from being used and costly fixes later on. Fields change when metals get old or worn out, so this method works well.
These meters ensure magnets work right by keeping them in top shape. They are often used in car and aerospace factories to avoid big costs and boost safety.
Buyers should consider these features when choosing handheld gaugemeters.
A gaussmeter has a magnetic sensor that measures the strength and direction of magnetic fields. This sensor gives readings that are accurate and fast. Some models have dual or tri sensors to check fields in more than one way. This helps in tasks that need a lot of data.
The display screen on a gaussmeter shows field strength and often keeps the readings steady. Most models have an LCD or LED screen that is easy to read. Buyers look for screens with backlighting so users can read them in dim places. Some models have data capture and shift displays for later use.
A data logger is a key part of many gaussmeters. It saves field strength data for further study. Big models can store thousands of readings, which gives users time to focus on other tasks. This feature is often used in tests and surveys where fields must be checked over time.
The battery life of a gaussmeter can vary based on what it does and how often it's used. Many models work for long hours on one charge. This keeps the meter ready for big tasks without stopping. Users get models with good battery life to avoid missing key field checks.
Some gaussmeters connect to phones or tablets so users can see fields from afar. This is useful when working near strong fields or big machines. Bluetooth and Wi-Fi are common wireless types. Users value this for safety and ease when monitoring strong fields.
Buyers must use these tips to select suitable magnetic measuring devices.
Pick a Gaussmeter that measures the right range of magnetic fields. Wide-range meters handle both strong and weak fields. Those used in electronics should work in microteslas. While industrial users need readings in kiloteslas. A broad range keeps one from buying more meters later.
Choose a sensitive meter for precise work. High sensitivity gives small readings accurately. This is vital in tasks like testing coils or tiny magnets. A more sensitive meter cuts errors and gives exact data. It lowers the need for more tests and saves time.
Select a Gaussmeter with the right probe shape. Thin or flat probes work well for tight spots. Larger probes cover wide areas faster. Buy a removable probe for easy upgrades. Choosing the right probe helps in getting better results in the tasks at hand.
Pick a meter with high accuracy to get exact readings. Look for models with low margins of error. This helps in tasks that require fine work. Exact data leads to fewer mistakes. It also lowers the chance of issues from weak or strong fields.
Check the specs to see how the meter performs. Key specs to check include range, accuracy, and probe size. These specs help in picking the right model for the task at hand. The right model keeps the work efficient and accurate. Knowing the specs prevents choosing a meter with less-than-ideal results.
The sensor and probe tip are some parts to clean often. They should be cleaned using a soft cloth. A brush can be used to get into any tight spots. Cleaning them well stops dust from making errors in the readings. This also keeps the sensor from wearing out faster. Clean sensors give the best results for tests.
The probe tip of a gaussmeter is often made of soft steel. Some have tips made from non-ferrous metals like brass or aluminum. The sensor inside is often made of magnetoresistive metals. These materials keep the probe strong even when used in harsh jobs. They do not damage magnets or metal parts.
Cleaning it often and storing it well boosts its life. The sensor and probe should be cleaned from dust after each job. Some probes are strong, and users can clean them with brushes. Store the meter in a dry case when not in use. Keep it safe from shocks. When cared for, it lasts much longer.
Gaussmeters work well for most magnetic field checks. But fields that are too strong can damage the sensor. Avoid getting close to large magnets or wires with high current. Industrial tools in heavy use may also cause harm. Use protection or turn off the field when possible.
One common mistake is holding the probe too close to the sensor. This causes errors in the reading and gives wrong results. Another mistake is not keeping the probe straight. Make sure the probe is clean and check the battery often. Avoiding these errors gives better results.
