posted on 2024-10-09, 05:43authored byChengyu Shi, Heqiang Niu, Chunyu Zhao, Ying Zhou, Ling He, Aizhao Pan
Ancient ivory serves as an important witness of time
and historical
events, offering highly significant insights into the fields of paleontology,
mineralogy, materials science, and geochemistry. However, ancient
ivory has undergone groundwater corrosion and has a loose porous structure
and reduced mechanical strength due to being buried for a long time.
Therefore, the temporary reinforcement and preservation of ancient
ivory artifacts are a well-known challenge. A methodology was presented
in this article for the synthesis of calcium-based mineralized hydrogels
(Ca-gel), which possess controllable adhesive strength, beneficial
compatibility, environmentally friendly and noninvasive protection,
as well as efficient and rapid adhesion for ancient ivory cultural
relics. By manipulating the various components of Ca-gel, it was possible
to achieve a controllable gel time and gel state. Additionally, the
hydrogel possessing a substantial water content has the potential
to establish a humid environment suitable for the preservation of
ancient ivory, thereby overcoming the challenges associated with water
loss and weathering that may arise during excavation processes. It
is noteworthy that Ca-gel possessed universality and temporary adhesive
properties that could be employed in the temporary reinforcement of
cultural relics from different materials. A method has been proposed
in this study to facilitate the temporary reinforcement process while
ensuring the protection of authenticity, integrity, and continuity
for cultural relics.