摘要
用扫描电镜(SEM)观察了珍珠以及用10%H2O2和1mol/LNaOH溶液腐蚀后珍珠样品的横断面和纵剖面形貌。10%H2O2酸性溶液对珍珠从晶界开始并沿晶界形成腐蚀坑。在碱性溶液中,珍珠由于角质蛋白质的降解而被腐蚀,腐蚀也是沿晶界形成腐蚀坑。珍珠表面存在结晶现象,横断面上生成疏松多孔结构并在该结构上生长宝石花状、叶片状以及颗粒状晶体。纵剖面上没有疏松多孔结构。结果表明,珍珠文石晶片结构和成分不均匀性,以及蛋白质在CaCO3形核结晶过程中起着引导作用。
The scanning electron microscope (SEM) micrographs of the vertical and cross sections of pearls and pearl samples corroded in 10% H 2O 2, 1mol/L NaOH electrolytes display that pearl has the laminated structure of macro layers and micro layers. The corrosion of pearl in 10% H 2O 2 starts and forms the separated corrosion pits along the grain boundaries. In NaOH electrolyte, pearl is etched due to the protein decomposition and forms the corrosion pits along the grain boundaries too. CaCO 3 crystallizes on the pearls and forms porous structures on which the leaf like, flower like and granular grains grow on the cross section. The porous structure is not found on the vertical section. The result reveals the composition and structure heteropic nature of the aragonite grain forming pearl and the protein induces the crystal nucleation.
出处
《清华大学学报(自然科学版)》
EI
CAS
CSCD
北大核心
1998年第12期57-60,共4页
Journal of Tsinghua University(Science and Technology)
关键词
珍珠
腐蚀
结晶
扫描电镜
过氧化氢
氢氧化钠
pearl
corrosion
crystallize
scanning electron microscope (SEM)
