Technical Library | 2019-01-08 02:00:27.0
Plastic ic tubes can be made of plastics of various materials such as PVC, PS, PET, PC, ABS, etc. The shipping tubes of different materials will have different performances. The characteristics of various materials and their packaging tubes are described in detail below;
Technical Library | 2019-02-07 02:24:06.0
Antistatic plastic IC shipping tube customization, need to provide the following four aspects of information: First, the choice of pipe material; Second, the size of the parts or physical; Third, the length of the pipe; Fourth, the choice of plug.
Technical Library | 2019-05-09 05:40:52.0
When the anti static ic tube is produced, it is empty at both ends. Therefore, before and after the electronic components are loaded into the plastic tube, the IC hoses need to be blocked at both ends. Generally, there are plastic nails and rubber stoppers.
Technical Library | 2019-01-20 22:47:35.0
With the rapid development of the electronics industry, more and more components such as integrated circuits and connectors, relays, power modules, etc. need to be packaged with IC tubes. The anti static ic tubes is actually a kind of pvc plastic(reference to : What are the materials for IC tubes) profile, the size varies with the shape of the installed product, the precision requirement is high, the wall thickness should be controlled within ±0.1mm, and the surface is required to have no impurity spots, smooth and transparent. The IC packaging tubes produced by Sewate Technology Co., Ltd. are extruded. The typical process flow is: extrusion, vacuum adsorption setting, traction, fixed length cutting and directional discharge, deburring, immersion antistatic liquid, drying, testing, packaging and storage
Technical Library | 2022-09-12 14:07:47.0
Unique component handling issues can arise when an assembly factory uses highly-moisture sensitive surface mount devices (SMDs). This work describes how the distribution of moisture within the molded plastic body of a SMD is an important variable for survivability. JEDEC/IPC [1] moisture level rated packages classified as Levels 4-5a are shown to require additional handling constraints beyond the typical out-of-bag exposure time tracking. Nitrogen or desiccated cabinet containment is shown as a safe and effective means for long-term storage provided the effects of prior out-of-bag exposure conditions are taken into account. Moisture diffusion analyses coupled with experimental verification studies show that time in storage is as important a variable as floor-life exposure for highly-moisture sensitive devices. Improvements in floor-life survivability can be obtained by a handling procedure that includes cyclic storage in low humidity containment. SMDs that have exceeded their floor-life limits are analyzed for proper baking schedules. Optimized baking schedules can be adopted depending on a knowledge of the exposure conditions and the moisture sensitivity level of the device.
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