Plastic Substrate for Optical Memory Disk

Topical Meeting on Optical Data Storage Pub Date : 1900-01-01 DOI:10.1364/ods.1985.thcc3

Y. Onisawa, S. Tokuhara, Taiji Hiramatsu, Hirotaka Toba

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Abstract

Polymethylmethacrylate(PMMA) and Polycarbonate(PC) was usually used for the materials for the substrate of optical disks. PMMA is used for the commercialized disk substrates larger than 20cm in diameter because of the excellent optical properties, especially low level of birefringence. But the substrate of PMMA has a fault, that warping takes place more easily than PC by heat and water absorption. On the other hand PC is not liable to warp but has generally poorer moldability and higher birefringence. Thus PC is used only for compact disk of 12cm diameter. PC is superior to PMMA if the birefringence can be decreased. We reported on the topical meeting at Montrey last year that 20cm diameter PC substrate with low birefringence was obtained by optimum selection of conditions for injection molding. It was possible to keep the retardation of the recordable area of PC 20cm diameter substrates within 40nm(double pass). Furthermore we investigated the molding conditions for PC 30cm diameter substrates and succeeded in molding substrates of low birefringence(retardation) as shown in Fig.1. We used a special mold which has several pressure sensors in the cavity and optimized the molding conditions, using the correlation between pressure distribution and birefringence. The environmental durability of optical disks is very important from the viewpoint of actual usage of optical disks as optical recording media. We found that the depth of tracking pregrooves engraved on plastic substrates by injection molding changes depending on environmental conditions. Generally, the substrates for optical disk have groove of submicron size. In the process of injection molding of disk substrate molten polymer is injected into mold cavity with high flow rate and pressed on the stamper by cavity pressure. Then pregrooves and pits on the stamper is replicated to molten polymer. The change of cylinder position, ram pressure and pressure of mold cavity during injection is shows in Fig.2. The time for the process from the injection of the hot molten polymer to the rise of pressure in a mold cavity is only a few milliseconds.

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光存储器用塑料衬底

聚甲基丙烯酸甲酯(PMMA)和聚碳酸酯(PC)是常用的光盘基片材料。PMMA因其优异的光学性能，特别是低双折射性能，被广泛用于直径大于20cm的商业化磁盘基板。但PMMA基材有一个缺点，即比PC更容易因吸热和吸水而发生翘曲。另一方面，PC不易翘曲，但通常具有较差的可塑性和较高的双折射率。因此，PC仅用于直径为12厘米的光盘。如果双折射率可以降低，则PC优于PMMA。我们在去年的蒙特雷专题会议上报道了通过优化选择注射成型条件获得了直径为20cm的低双折射PC基板。对于直径20cm的PC基板，其可记录面积的延迟可以保持在40nm以内(双通道)。此外，我们还研究了直径为30cm的PC基板的成型条件，并成功成型了低双折射(延迟)基板，如图1所示。我们使用了一种特殊的模具，在型腔中有几个压力传感器，并利用压力分布和双折射之间的相关性来优化成型条件。从光盘作为光记录介质的实际使用来看，光盘的环境耐久性是非常重要的。我们发现，通过注射成型在塑料基材上雕刻的跟踪预槽的深度随环境条件的变化而变化。光盘的基片一般都有亚微米尺寸的凹槽。在圆盘基板的注射成型过程中，熔融聚合物以高流速注入模腔，通过模腔压力压在冲压件上。然后将冲压件上的预凹槽和凹坑复制到熔融聚合物中。注射过程中气缸位置、滑枕压力和模腔压力的变化如图2所示。从注入热熔融聚合物到模腔内压力上升的过程时间仅为几毫秒。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Topical Meeting on Optical Data Storage

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