China Good quality OEM Customized 5 Axis Aluminum Alloy Bending Stamping Parts for Aerospace/Agricultural with Hot selling

Merchandise Description

Solution Description

 

Typical nonferrous metals that we engaged in include copper, iron (Japanese normal SUM24L, SUM22 American regular 12L14, 12L15), aluminum (6060, 6063, LY12, and so forth.), stainless steel (SUS303, SUS316), stainless iron (SUS416, SUS430)

Standard items that we produced: 
one. spare areas for consumer electonics:
alloy housing, alloy stands, pin, inserts, terminals, shafts, specialty screws, stand-offs, valves, etc

2. car spare areas/bike areas/new power motor vehicle components
motorcycle clutch elements, wheel rim, and many others

3. industrial machine spare parts
hefty industrial equipment spare parts like foundations and sleeves.

If you have any components to be created, remember to truly feel cost-free to get in touch with us.

Thorough Photos

 

 

Product Parameters

 

Certifications

 

Packaging & Shipping and delivery

Firm Profile

HangZhou Ohm Industrial Co., Ltd was set up in 2018, specializing in the producing and exporting non-ferrous metal machinery areas. Such as merchandise designing, sampling, confirming, manufacturing and delivery, we can provide you 1 end provider for any metallic parts for utilizes like robotics, education and learning, development, industrial automation, consumer electronics, aerospace and protection, new strength vehicle, healthcare and detal, etc. All of our creation is carried out in compliance with worldwide quality-control standards and our goods take pleasure in a excellent popularity the two at house and abroad. We have been adhering to the coverage of the best provider, large quality, quickly delivery. We also meet customer demands to the finest extent. Our manufacturing facility handles an location of 5000 sq. meters, and owes 200pcs substantial-precision device equipment and archived annual output of a lot more than 30 million US bucks in 2571. We sincerely welcome friends from all above the globe to go to our business and cooperate with us on the basis of long-expression mutual positive aspects. We support your customization, if you have any requirements, you should feel free of charge to get in touch with us.

Machine Providers

Our Positive aspects

FAQ

Q1: In which can I get merchandise or cost data?
A1: Ship us an inquiry in this page or e-mail, we will make contact with you after on receipt of your mail.

Q2: Do you provide samples? Is it free of charge or added?
A2: Indeed, we can provide samples. We will demand you dependent on sample processing and the price will be returned to your bulk order.

Q3: How shortly can I get merchandise?
A3: Samples are typically 3-7 days bulk orders are ten-25 days, based on the quantity and elements specifications.

Q4: I don’t have any documents for spare portion that I want to purchase. I just have true samples. Can you create it in massive quantiity?
A4: Of course. Our professional engineer can draw CAD file upon your sample. But the tolerance is decrease than the 1 that created by orignal drawings.

Q5: Why you quotation is a lot lower than my standard suppliers? Is it the same quality?
A5: Due to the fact the value of customized parts is quoted by the time of machine running and the technician running. Our engineer has far more than twenty several years reworking the related drawings into straightforward equipment codes, which can be optimized immensely.

Q6: How do you guarantee the high quality of your products?
A6: We can supply all sorts of tests certificates. And we will consider 100% inspection in the course of generation.

Q7: What is your after-sale services?
A7: If there is any query, please supply pictures or examination reports, we will manage it for you in a well timed way.

 

Sample profile Weight: Customized
Available materials Steel, Aluminum, Alloy ,Brass, Copper, Bronze, etc
Software/format PRO/E, Auto CAD, Solid works, IGS, UG, CAD/CAM/CAE
Tolerance (±5um) or as customer required
Test equipment Measurement instrument, projector, CMM, Altimeter, Micrometer, Thread Gages, Calipers, Pin guage etc.
Processing CNC turning, milling, drilling, auto lathe, tapping, bushing, surface treatment, anodized, casting ,injection,3D printing,etc.
Application Mechinery/Education/Artificial Intellegence/Construction/Industrial/Electrical Products/Medical Products/New Energy Vehicals/Aerospace/Defense
MOQ 1-10 pcs
QC System 100% inspection before shipment
Service OEM/ODM/Customized/Design
Delivery date 7-30days
Package Packaged by Carton Box or as Your Request
Sample profile Weight: Customized
Available materials Steel, Aluminum, Alloy ,Brass, Copper, Bronze, etc
Software/format PRO/E, Auto CAD, Solid works, IGS, UG, CAD/CAM/CAE
Tolerance (±5um) or as customer required
Test equipment Measurement instrument, projector, CMM, Altimeter, Micrometer, Thread Gages, Calipers, Pin guage etc.
Processing CNC turning, milling, drilling, auto lathe, tapping, bushing, surface treatment, anodized, casting ,injection,3D printing,etc.
Application Mechinery/Education/Artificial Intellegence/Construction/Industrial/Electrical Products/Medical Products/New Energy Vehicals/Aerospace/Defense
MOQ 1-10 pcs
QC System 100% inspection before shipment
Service OEM/ODM/Customized/Design
Delivery date 7-30days
Package Packaged by Carton Box or as Your Request

Screw Shaft Features Explained

When choosing the screw shaft for your application, you should consider the features of the screws: threads, lead, pitch, helix angle, and more. You may be wondering what these features mean and how they affect the screw’s performance. This article explains the differences between these factors. The following are the features that affect the performance of screws and their properties. You can use these to make an informed decision and purchase the right screw. You can learn more about these features by reading the following articles.

Threads

The major diameter of a screw thread is the larger of the two extreme diameters. The major diameter of a screw is also known as the outside diameter. This dimension can’t be directly measured, but can be determined by measuring the distance between adjacent sides of the thread. In addition, the mean area of a screw thread is known as the pitch. The diameter of the thread and pitch line are directly proportional to the overall size of the screw.
The threads are classified by the diameter and pitch. The major diameter of a screw shaft has the largest number of threads; the smaller diameter is called the minor diameter. The thread angle, also known as the helix angle, is measured perpendicular to the axis of the screw. The major diameter is the largest part of the screw; the minor diameter is the lower end of the screw. The thread angle is the half distance between the major and minor diameters. The minor diameter is the outer surface of the screw, while the top surface corresponds to the major diameter.
The pitch is measured at the crest of a thread. In other words, a 16-pitch thread has a diameter of one sixteenth of the screw shaft’s diameter. The actual diameter is 0.03125 inches. Moreover, a large number of manufacturers use this measurement to determine the thread pitch. The pitch diameter is a critical factor in successful mating of male and female threads. So, when determining the pitch diameter, you need to check the thread pitch plate of a screw.
screwshaft

Lead

In screw shaft applications, a solid, corrosion-resistant material is an important requirement. Lead screws are a robust choice, which ensure shaft direction accuracy. This material is widely used in lathes and measuring instruments. They have black oxide coatings and are suited for environments where rusting is not acceptable. These screws are also relatively inexpensive. Here are some advantages of lead screws. They are highly durable, cost-effective, and offer high reliability.
A lead screw system may have multiple starts, or threads that run parallel to each other. The lead is the distance the nut travels along the shaft during a single revolution. The smaller the lead, the tighter the thread. The lead can also be expressed as the pitch, which is the distance between adjacent thread crests or troughs. A lead screw has a smaller pitch than a nut, and the smaller the lead, the greater its linear speed.
When choosing lead screws, the critical speed is the maximum number of revolutions per minute. This is determined by the minor diameter of the shaft and its length. The critical speed should never be exceeded or the lead will become distorted or cracked. The recommended operational speed is around eighty percent of the evaluated critical speed. Moreover, the lead screw must be properly aligned to avoid excessive vibrations. In addition, the screw pitch must be within the design tolerance of the shaft.

Pitch

The pitch of a screw shaft can be viewed as the distance between the crest of a thread and the surface where the threads meet. In mathematics, the pitch is equivalent to the length of one wavelength. The pitch of a screw shaft also relates to the diameter of the threads. In the following, the pitch of a screw is explained. It is important to note that the pitch of a screw is not a metric measurement. In the following, we will define the two terms and discuss how they relate to one another.
A screw’s pitch is not the same in all countries. The United Kingdom, Canada, and the United States have standardized screw threads according to the UN system. Therefore, there is a need to specify the pitch of a screw shaft when a screw is being manufactured. The standardization of pitch and diameter has also reduced the cost of screw manufacturing. Nevertheless, screw threads are still expensive. The United Kingdom, Canada, and the United States have introduced a system for the calculation of screw pitch.
The pitch of a lead screw is the same as that of a lead screw. The diameter is 0.25 inches and the circumference is 0.79 inches. When calculating the mechanical advantage of a screw, divide the diameter by its pitch. The larger the pitch, the more threads the screw has, increasing its critical speed and stiffness. The pitch of a screw shaft is also proportional to the number of starts in the shaft.

Helix angle

The helix angle of a screw shaft is the angle formed between the circumference of the cylinder and its helix. Both of these angles must be equal to 90 degrees. The larger the lead angle, the smaller the helix angle. Some reference materials refer to angle B as the helix angle. However, the actual angle is derived from calculating the screw geometry. Read on for more information. Listed below are some of the differences between helix angles and lead angles.
High helix screws have a long lead. This length reduces the number of effective turns of the screw. Because of this, fine pitch screws are usually used for small movements. A typical example is a 16-mm x 5-inch screw. Another example of a fine pitch screw is a 12x2mm screw. It is used for small moves. This type of screw has a lower lead angle than a high-helix screw.
A screw’s helix angle refers to the relative angle of the flight of the helix to the plane of the screw axis. While screw helix angles are not often altered from the standard square pitch, they can have an effect on processing. Changing the helix angle is more common in two-stage screws, special mixing screws, and metering screws. When a screw is designed for this function, it should be able to handle the materials it is made of.
screwshaft

Size

The diameter of a screw is its diameter, measured from the head to the shaft. Screw diameters are standardized by the American Society of Mechanical Engineers. The diameters of screws range from 3/50 inches to sixteen inches, and more recently, fractions of an inch have been added. However, shaft diameters may vary depending on the job, so it is important to know the right size for the job. The size chart below shows the common sizes for screws.
Screws are generally referred to by their gauge, which is the major diameter. Screws with a major diameter less than a quarter of an inch are usually labeled as #0 to #14 and larger screws are labeled as sizes in fractions of an inch. There are also decimal equivalents of each screw size. These measurements will help you choose the correct size for your project. The screws with the smaller diameters were not tested.
In the previous section, we described the different shaft sizes and their specifications. These screw sizes are usually indicated by fractions of an inch, followed by a number of threads per inch. For example, a ten-inch screw has a shaft size of 2” with a thread pitch of 1/4″, and it has a diameter of two inches. This screw is welded to a two-inch Sch. 40 pipe. Alternatively, it can be welded to a 9-inch O.A.L. pipe.
screwshaft

Shape

Screws come in a wide variety of sizes and shapes, from the size of a quarter to the diameter of a U.S. quarter. Screws’ main function is to hold objects together and to translate torque into linear force. The shape of a screw shaft, if it is round, is the primary characteristic used to define its use. The following chart shows how the screw shaft differs from a quarter:
The shape of a screw shaft is determined by two features: its major diameter, or distance from the outer edge of the thread on one side to the inner smooth surface of the shaft. These are generally two to sixteen millimeters in diameter. Screw shafts can have either a fully threaded shank or a half-threaded shank, with the latter providing better stability. Regardless of whether the screw shaft is round or domed, it is important to understand the different characteristics of a screw before attempting to install it into a project.
The screw shaft’s diameter is also important to its application. The ball circle diameter refers to the distance between the center of two opposite balls in contact with the grooves. The root diameter, on the other hand, refers to the distance between the bottommost grooves of the screw shaft. These are the two main measurements that define the screw’s overall size. Pitch and nominal diameter are important measurements for a screw’s performance in a particular application.

Lubrication

In most cases, lubrication of a screw shaft is accomplished with grease. Grease is made up of mineral or synthetic oil, thickening agent, and additives. The thickening agent can be a variety of different substances, including lithium, bentonite, aluminum, and barium complexes. A common classification for lubricating grease is NLGI Grade. While this may not be necessary when specifying the type of grease to use for a particular application, it is a useful qualitative measure.
When selecting a lubricant for a screw shaft, the operating temperature and the speed of the shaft determine the type of oil to use. Too much oil can result in heat buildup, while too little can lead to excessive wear and friction. The proper lubrication of a screw shaft directly affects the temperature rise of a ball screw, and the life of the assembly. To ensure the proper lubrication, follow the guidelines below.
Ideally, a low lubrication level is appropriate for medium-sized feed stuff factories. High lubrication level is appropriate for larger feed stuff factories. However, in low-speed applications, the lubrication level should be sufficiently high to ensure that the screws run freely. This is the only way to reduce friction and ensure the longest life possible. Lubrication of screw shafts is an important consideration for any screw.