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不同壳材相变微胶囊对深水固井水泥浆水化及孔隙结构演化的调控机理

吴祖锐郑明明张亚伟杜奕辰李可赛胡云鹏

石油科学通报2026，Vol.11Issue(1)：226-238,13.

石油科学通报2026，Vol.11Issue(1)：226-238,13.DOI:10.3969/j.issn.2096-1693.2026.03.002

不同壳材相变微胶囊对深水固井水泥浆水化及孔隙结构演化的调控机理

Regulation mechanisms of phase change microcapsules with different shell materials on hydration and pore structure evolution in deepwater well cementing slurry

吴祖锐 ¹郑明明 ¹张亚伟 ¹杜奕辰 ¹李可赛 ²胡云鹏¹

作者信息

1. 成都理工大学地质灾害防治与地质环境保护全国重点实验室,成都 610059
2. 成都理工大学油气藏地质及开发工程全国重点实验室,成都 610059
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摘要

Abstract

To regulate the hydration heat of deep-water well cementing slurry,phase change microcapsules(m-PCMs)with organic(PMMA)and inorganic(SiO₂)shells were prepared in this study to investigate the influence mechanism of shell proper-ties on the cement matrix performance.The results indicated that both types of m-PCMs exhibited excellent shear stability and similar peak phase change temperatures(25.6 ℃),effectively reducing hydration exotherms.The critical difference lay in their wettability:PMMA@m-PCM was hydrophobic(116.5°),whereas SiO₂@m-PCM was strongly hydrophilic(27.3°).Micro-CT confirmed that m-PCMs at a 6 wt%dosage effectively reduced the proportion of large pores,optimizing the pore structure.Mechanical tests revealed that SiO₂@m-PCM demonstrated a significant strength enhancement effect at 3 and 7 days,while PMMA@m-PCM severely weakened the matrix strength.SEM analysis revealed that the core of this performance disparity was interfacial compatibility:the hydrophilic SiO₂ shell formed a dense interfacial transition zone(ITZ)with the matrix,whereas the hydrophobic PMMA shell caused severe interfacial debonding,creating mechanical weak points.This study demonstrates that using hydrophilic inorganic shells is key to achieving the unification of m-PCM hydration heat regulation and mechanical perfor-mance enhancement.These findings provide a new methodology for designing low-heat cement slurries,offering theoretical and technical insights for safe and sustainable deep-sea oil and gas exploitation and reducing ecological impact.

关键词

微胶囊相变材料/固井水泥浆/水化热致裂缝/孔隙分布/Micro-CT

Key words

microencapsulated phase change materials/cementing slurry/fracture caused by hydration heat/pore distribution/Micro-CT

分类

能源科技

引用本文复制引用

吴祖锐,郑明明,张亚伟,杜奕辰,李可赛,胡云鹏..不同壳材相变微胶囊对深水固井水泥浆水化及孔隙结构演化的调控机理[J].石油科学通报,2026,11(1):226-238,13.

基金项目

国家自然科学基金(42272363)、四川省科技计划项目(2023NSFSC0432)和地质灾害防治与地质环境保护全国重点实验室自主研究项目(SKLGP2023Z019)联合资助（42272363）

石油科学通报

ISSN：2096-1693

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