¡¤²úÆ·ÃèÊö Description
GYTA ¹âÀµĽṹÊǽ« 250¦Ìm ¹âÏËÌ×Èë¸ßÄ£Á¿²ÄÖƳɵÄËÉÌ×¹ÜÖУ¬ËÉÌ×¹ÜÄÚÌî³ä·ÀË®»¯ºÏÎï¡£ÀÂоµÄÖÐÐÄÊÇÒ»¸ù½ðÊô¼Óǿо£¬¶ÔÓÚijЩоÊýµÄ¹âÀÂÀ´Ëµ£¬½ðÊô¼ÓǿоÍ⻹Ðè¼·ÉÏÒ»²ã¾ÛÒÒÏ©£¨PE£©¡£ËÉÌ׹ܣ¨ºÍÌî³äÉþ£©Î§ÈÆÖÐÐļÓǿо½ÊºÏ³É½ô´ÕºÍÔ²ÐεÄÀÂо£¬ÀÂоÄڵķì϶³äÒÔ×èË®Ìî³äÎͿËÜÂÁ´ø£¨PL£©×Ý°üºó¼·ÖƾÛÒÒÏ©»¤Ì׳ÉÀ¡£
The fibers, 250¦Ìm,are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. A steel wire, sometimes sheathed with polyethylene (PE) for cable with high fiber count, locates in the center of core as a metallic strength member. Tubes (and fillers) are stranded around the strength member into a compact and circular cable core. An Aluminum Polyethylene Laminate (APL) is applied around the cable core, which is filled with the filling compound to protect it from water ingress. Then, the cable is completed with a PE sheath.
¡¤²úÆ·Ìصã Characteristics
¡¤ ¾ßÓкܺõĻúеÐÔÄܺÍζÈÌØÐÔ
¡¤ Good mechanical and temperature performance
¡¤ ËÉÌ׹ܲÄÁϱ¾Éí¾ßÓÐÁ¼ºÃµÄÄÍË®ÐÔÄܺͽϸߵÄÇ¿¶È
¡¤ High strength looes tube that is hydrolysis resistant
¡¤ ¹ÜÄÚ³äÒÔÌØÖÖÓ͸࣬¶Ô¹âÏ˽øÐÐÁ˹ؼüÐÔ±£»¤
¡¤ Special tube filling compound ensure a critical protection of fiber
¡¤ ÌرðÉè¼ÆµÄ½ôÃܵĹâÀ½ṹ£¬ÓÐЧ·ÀÖ¹Ì׹ܻØËõ
¡¤ Specially designed compact structure is good at preventing loose tubes from shrinking
¡¤ PE»¤Ì×¾ßÓкܺõĿ¹×ÏÍâ·øÉäÐÔÄÜ
¡¤ PE sheath protects cable from ultraviolet radiation
¡¤ ²ÉÓÃÏÂÁдëÊ©À´È·±£¹âÀµķÀË®ÐÔÄÜ£º
¡¤ The following measures are taken to ensure the cable watertight:
- µ¥¸ù¸ÖË¿ÖÐÐļÓǿо
- Steel wire used as the central strength member
- ËÉÌ×¹ÜÄÚÌî³äÌØÖÖ·ÀË®»¯ºÏÎï
- Loose tube filling compound
- ÍêÈ«ÀÂоÌî³ä
- 100% cable core filling
- Í¿ËÜÂÁ´ø£¨APL£©·À³±²ã
- APL moisture barrier
¡¤²úÆ·±ê×¼ Standards
GYTA ¹âÀ·ûºÏ YD/T 901-2001 ºÍ IEC 60794-1 ±ê×¼
GYTA cable complies with Standard YD/T 901-2001as well as IEC 60794-1. |
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