HYPODERMIC NEEDLE MOLD
Welinktech Hypodermic Needle Molds are specifically designed to produce needles for syringes that are used for various medical applications. These molds come in different shapes and sizes, ensuring precision and accuracy in the manufacturing process to guarantee that the needles are safe for medical use.
TYPES OF HYPODERMIC NEEDLE MOLD
Hypodermic Needle Hub Mold (14G, 16G, 17G, 18G, 19G, 20G, 21G, 22G, 23G, 24G, 25G, 26G, 27G, 28G, 29G, 30G, 31G)
ADVANTAGES OF HYPODERMIC NEEDLE MOLD
1. Precision and Accuracy: Hypodermic needle molds are intended to manufacture needles with specific dimensions and properties, assuring manufacturing precision.
2. Increased Efficiency: Using hypodermic needle molds may improve the efficiency and speed of the manufacturing process, lowering labor costs and turnaround time.
3. Cost-effective: The capacity of needle molds to manufacture a high volume of needles in a short length of time decreases manufacturing costs, making the production process more cost-effective.
4. Consistency: Hypodermic needle molds are designed to produce needles with uniform dimensions, resulting in consistent products that fulfill the requisite safety and quality criteria for medical applications.
5. Customizable: Needle molds can be customized to meet specific requirements for unique needles, ensuring that the final product meets the demands of the medical sector.
6. Quality Assurance: The use of needle molds in needle production ensures that the needles are of high quality and meet the necessary safety and quality standards.
UNDERSTANDING THE DIFFERENCES AMONG HYPODERMIC NEEDLE MOLDS
1
The flow rate of the liquid being injected is affected by the gauge of the needle. Flow rates will be slower with smaller gauge needles than with larger gauge needles.
2
Patients are often more comfortable with smaller gauge needles since they produce less discomfort and bleeding. Bigger gauge needles cause greater discomfort and may result in more bleeding.
3
The needle gauge used will also be determined by the application. A 14G needle, for example, may be utilized for heavier fluids, but a 30G needle may be appropriate for administering insulin.
4
The design of different gauge needles can vary based on the manufacturing process. For example, thinner needles may require more precise molds and additional steps in the manufacturing process.