首页/文章/ 详情

产品·日本东丽推出新一代Torayca®预浸料ET40

3月前浏览2552

本文摘要:(由ai生成)

TORAYCA® Prepreg ET40是一种创新预浸料,结合高机械性能和卓越成型性。通过在单向预浸料上精确开缝,ET40形成了一种特殊单向SMC材料,纤维束规则排列,确保模压过程中均匀流动,实现复杂形状成型,如肋条和深拉,同时保持均质层压结构。ET40具备与单向预浸料相当的表面外观、模量和80%以上的强度,显著缩短生产周期,提升大批量应用的效率,适用于汽车部件等领域。

TORAYCA® Prepreg ET40 is an innovative prepreg which simultaneously provides high mechanical properties and excellent formability. ET stands for Extensible and Transformable by 40%. The superior levels of formability can achieve complex shaping by compression molding with equivalent mechanical properties to conventional UD prepreg. Those features enable to drastically reduce cycle time and improve proactivity for a large volume applications such as automotive parts.

Processing Technology

ET40 is made by introducing slits into UD prepreg in a controlled manner, creating a type of unidirectional SMC material in which fiber bundles are regularly arrayed in the same direction. This method allows for the consistent and regular flow of the bundles during the molding process and therefore results in the ability to be shaped into complex shapes, such as rib and deep-drawing, while maintaining a homogenous laminate structure due to its extensible and transformable nature. As a result of specific slitting patterns, ET40 is able to achieve the equivalent surface appearance, modulus and over 80% of the strength of UD prepreg.

Special slit pattern to be installed onto UD prepreg.

Homogeneous Laminate structure

Solutions

ET40 is made by introducing slits into UD prepreg in a controlled manner, creating a type of unidirectional SMC material in which fiber bundles are regularly arrayed in the same direction. This method allows for the consistent and regular flow of the bundles during the molding process and therefore results in the ability to be shaped into complex shapes, such as rib and deep-drawing, while maintaining a homogenous laminate structure due to its extensible and transformable nature. As a result of specific slitting patterns, ET40 is able to achieve the equivalent surface appearance, modulus and over 80% of the strength of UD prepreg.

3D shaping by compression molding

Reinforcement for metal structure

Mechanical Propertied sfter stretch mold (Isotropic flow)

In quasi-isotropic stacking sequence, ET40 has no declining in tensil modulus, in spite of the slits introduced into each ply.

Decreases of tensile strength and impact strength of ET40 are only 20% approximately.

Applicable Prepreg

Any type of UD prepreg and resin system can be applicable for ET40.

3 types of rapid cure resin system are available for compression molding with ET40.

来源:日本东丽官网,碳纤维生产技术整理。


特别声明:公 众号部分文章和图片来源于网络,发布的目的在于传递更多信息及分享,并不代表本公 众号赞同其观点和对其真实性负责,也不构成任何其他建议。版权归原作者所有,任何组织或个人对文章版权或内容的准确性存在疑议,请第一时间联系我们,我们会及时修改或删除。

广告免责声明:为了公 众号稳定发展,本公众 号会不定时承接行业广告、产品推广、会议培训推广等广告展示方式有文章前/中/后以图片形式展示、软文展示、产品链接展示等。本公 众号只提供发布平台,对广告内容的真实性或有效性不做评价,请自行判别。所有广告内容及相关事项与本公 众号无关,特此声明。


来源:碳纤维生产技术
ACTMechanicalSystemUMMETA
著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2024-07-23
最近编辑:3月前
碳纤维生产技术
助力国内碳纤维行业发展
获赞 22粉丝 30文章 3739课程 0
点赞
收藏
作者推荐

关注·LeMond与迪肯大学签署协议 实现高性能低成本碳纤维的增产技术

著名的碳纤维复合材料制造商LeMond公司已经与澳大利亚迪肯大学签署了全球唯一一份长达的20年的技术许可协议,旨在使目前正处于专利申请状态商业化,以实现高性能、低成本碳纤维的增产技术。该许可技术将推进LeMond复材公司碳纤维生产技术的商业化。LeMond首席运营官尼古拉斯•韦格内(Nicolas Wegener)表示:“迪肯大学碳纤维生产工艺的碳化速度更快、资金和能源消耗更少、产量更大、工艺周期更短。工艺过程的能源消耗下降75%,因此所需的设备也相应减少75%。以上因素成就了低成本碳纤维的规模化生产,同时,使其生产效率跟得上市场需求的增长。”再生能源LeMond复合材料公司的首席执行官/创始人,格雷格说:“迪肯大学的制造过程将有可能使制造业本地化,并使碳纤维技术更容易被更广泛的行业接受,如交通运输,可再生能源和基础设施,以至于任何行业都能使用上更轻,更强,更安全的材料。“这个新技术可能会使全球先进制造业发生根本变革,因为它将促进碳纤维生产成,从而使消费者更容易获得碳纤维,”迪肯大学副校长和总裁珍妮•荷兰德教授说。LeMond复合材料公司表示,即将与一位商业客户签订其首次供货协议,计划将于2017年9月采用新工艺生产并销售碳纤维。来源:材料科技在线特别声明:公 众号部分文章和图片来源于网络,发布的目的在于传递更多信息及分享,并不代表本公 众号赞同其观点和对其真实性负责,也不构成任何其他建议。版权归原作者所有,任何组织或个人对文章版权或内容的准确性存在疑议,请第一时间联系我们,我们会及时修改或删除。广告免责声明:为了公 众号稳定发展,本公众 号会不定时承接行业广告、产品推广、会议培训推广等广告展示方式有文章前/中/后以图片形式展示、软文展示、产品链接展示等。本公 众号只提供发布平台,对广告内容的真实性或有效性不做评价,请自行判别。所有广告内容及相关事项与本公 众号无关,特此声明。 来源:碳纤维生产技术

未登录
还没有评论
课程
培训
服务
行家
VIP会员 学习 福利任务 兑换礼品
下载APP
联系我们
帮助与反馈