光学ガラス研磨面の小量溶液による侵蝕
スポンサーリンク
概要
- 論文の詳細を見る
By putting a small droplet of etchant solution on the surface of optical glass were studied topographic marks produced thereon with the aid of a microscope and a multiple-beam interferometer. Small droplets (about 0.01ml) of water, acid and alkaline solutions, and alkaline solutions containing some quantity of dissolved SiO2 were put on two samples of polished surfaces. One of them was kept in air and another was kept in mineral oil, for example gasoline, during various times at room temperature.Several types of corrosion were observed (see Table 2. and Fig. 3). In the case of water corrosion, the dissolution was uniform (Type B) (see Fig. 8). Thereafter the type of corrosion turned from B to C (see Fig. 9) with increasing time of attack. The reason for this phenomena is explained by the change of pH values. In alkaline solution, the degree of corrosion became deeper and that type was observed to be C (see Fig. 12). In acid solution, it was deepest and that type was A (see Fig. 4, 5). And in alkaline solutions with different quantities of dissolved SiO2, there appeared peculiar corrosion marks of type F (see Fig. 14, 15, 17) caused by precipitating supersaturated SiO2.When gasoline was used for immersion liquid, the interference color appeared on glass surface in all etchant solutions used. On the other hand, when the glass was kept in air, the depth of corrosion was smaller than that in gasoline and large number of microcrystals were observed on the corroded surface (see Fig. 7).The cause for producing the stain on the surface of glass during the process of polishing was cleared up and the method for protecting the glass against stain was found; from practical point of view, it is very important to evaporate up traces of water droplet condensed on the surface of glass (lens) before dipping the glass into gasoline (or other organic solvents) for removing pitch or similar adhesives.
- 社団法人日本セラミックス協会の論文
- 1967-06-01
著者
関連論文
- 重クラウン系光学ガラス研磨面の表面化学的研究
- 赤外線吸収スペクトルによる硼珪酸塩ガラス中の硼素配位数に関する研究
- グラスライニング座談会
- フリント系光学ガラス研磨面の表面化学的研究
- As-S 系ガラスの赤外線吸収スペクトルについて : 硫化物ガラスの物性と構造 I
- As-S 系ガラスの構造に関する研究 : 赤外線吸収スペクトルよりの推論
- 重クラウンガラスのアルカリ溶液による侵蝕
- A8.ガラスに対するアルカリ侵蝕に及ぼすカチオンの影響(研究発表講演要旨)
- A5.ガラスのアルカリ侵蝕におけるカチオンの影響(研究発表講演要旨)
- 重クラウン系光学ガラスの有機酸による侵食
- Na_2O-CaO-SiO_2ガラスのアルカリ溶液による侵食
- 神戸大学理学部創設期の化学科について (神戸大学開学前後の各部局について)
- As_2S_3-Tl_2S系およびAs_2S_3-Ag_2S系のガラスの構造
- K_2O-BaO-V_2O_5,K_2O-ZnO-V_2O_5およびBaO-ZnO-V_2O_5系ガラスの物性
- 光学ガラス表面の酸によるくもり
- As_2S_3-Sb_2S_3-S系ガラスの物性と構造 : 硫化物ガラスの物性と構造V
- As-S系ガラスの熱膨張
- As_2S_3-Sb_2S_3系ガラスの物性と構造 : 硫化物ガラスの物性と構造, IV
- As-S系ガラスの構造について : 硫化物ガラスの物性と構造, III
- As-S 系ガラスの物性(硫化物ガラスの物性と構造 II)
- 光学ガラス研磨面の小量溶液による侵蝕
- Surface Properties of Silicate Glass
- 海外通信
- アメリカ便り : Stanford Research Instituteにて
- ガラス表面における水蒸気の凝縮
- 2 窯業における応用
- ガラスの表面化学