会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明授权
    • Process for controlling morphology of Ziegler-Natta catalysts
    • 控制齐格勒 - 纳塔催化剂形态的方法
    • US08063159B2
    • 2011-11-22
    • US11778262
    • 2007-07-16
    • Kayo VizziniHenry EnriquezSteven D. GrayTim J. CoffyDavid W. Knoeppel
    • Kayo VizziniHenry EnriquezSteven D. GrayTim J. CoffyDavid W. Knoeppel
    • C08F4/00
    • C08F10/00C08F210/16Y10T428/1345Y10T428/139C08F4/6546C08F4/6541
    • Disclosed is a process for making a Ziegler-Natta catalyst having controlled particle size and distribution. It comprises altering the precipitation of a catalyst component from a catalyst synthesis solution including a soluble magnesium containing catalyst precursor by controlling the concentration of either the soluble magnesium containing catalyst precursor, wherein the average particle size of the catalyst component is increased, and the particle size distribution increased, with a decreased concentration of the soluble magnesium containing catalyst precursor; or of the precipitating agent, wherein the average particle size of the catalyst component is increased, and the particle size distribution increased with an increased concentration of the precipitating agent. Use of the invention enables improved catalyst consistency regardless of production scale and customizing of catalyst morphology to desired polymer morphology. The novel catalyst components may be used to prepare polymers, and end-use articles therefrom, having desirable properties.
    • 公开了一种制备具有受控粒度和分布的齐格勒 - 纳塔催化剂的方法。 其包括通过控制可溶性含镁催化剂前体的浓度来改变催化剂组分从包括可溶性镁的催化剂前体的催化剂合成溶液中的沉淀,其中催化剂组分的平均粒径增加,并且颗粒尺寸 分布增加,可溶性含镁催化剂前体的浓度降低; 或沉淀剂,其中催化剂组分的平均粒度增加,并且随着沉淀剂浓度的增加,粒度分布增加。 使用本发明能够改善催化剂的一致性,而不管生产规模如何,催化剂形态定制成所需的聚合物形态。 新颖的催化剂组分可用于制备聚合物及其最终用途制品,具有期望的性能。
    • 6. 发明申请
    • Process for Controlling Morphology of Ziegler-Natta Catalysts
    • 控制齐格勒 - 纳塔催化剂形态的方法
    • US20090023875A1
    • 2009-01-22
    • US11778262
    • 2007-07-16
    • Kayo VizziniHenry EnriquezSteven D. GrayTim J. CoffyDavid W. Knoeppel
    • Kayo VizziniHenry EnriquezSteven D. GrayTim J. CoffyDavid W. Knoeppel
    • B01J37/03C08F4/12
    • C08F10/00C08F210/16Y10T428/1345Y10T428/139C08F4/6546C08F4/6541
    • Disclosed is a process for making a Ziegler-Natta catalyst having controlled particle size and distribution. It comprises altering the precipitation of a catalyst component from a catalyst synthesis solution including a soluble magnesium containing catalyst precursor by controlling the concentration of either the soluble magnesium containing catalyst precursor, wherein the average particle size of the catalyst component is increased, and the particle size distribution increased, with a decreased concentration of the soluble magnesium containing catalyst precursor; or of the precipitating agent, wherein the average particle size of the catalyst component is increased, and the particle size distribution increased with an increased concentration of the precipitating agent. Use of the invention enables improved catalyst consistency regardless of production scale and customizing of catalyst morphology to desired polymer morphology. The novel catalyst components may be used to prepare polymers, and end-use articles therefrom, having desirable properties. It is emphasized that this abstract is provided to comply with the rules requiring an abstract which will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims.
    • 公开了一种制备具有受控粒度和分布的齐格勒 - 纳塔催化剂的方法。 其包括通过控制可溶性含镁催化剂前体的浓度来改变催化剂组分从包括可溶性镁的催化剂前体的催化剂合成溶液中的沉淀,其中催化剂组分的平均粒径增加,并且颗粒尺寸 分布增加,可溶性含镁催化剂前体的浓度降低; 或沉淀剂,其中催化剂组分的平均粒度增加,并且随着沉淀剂浓度的增加,粒度分布增加。 使用本发明能够改善催化剂的一致性,而不管生产规模如何,催化剂形态定制成所需的聚合物形态。 新颖的催化剂组分可用于制备聚合物及其最终用途制品,具有期望的性能。 要强调的是,该摘要被提供以符合要求摘要的规则,这将允许搜索者或其他读者快速确定技术公开的主题。 提交它的理解是,它不会用于解释或限制权利要求的范围或含义。
    • 8. 发明授权
    • Cocatalysts for reduction of production problems in metallocene-catalyzed polymerizations
    • 用于减少茂金属催化聚合中的生产问题的助催化剂
    • US07282546B2
    • 2007-10-16
    • US11158454
    • 2005-06-22
    • Steven GrayHenry EnriquezDavid Knoeppel
    • Steven GrayHenry EnriquezDavid Knoeppel
    • C08F4/42
    • C08F10/00C08F4/65916C08F4/65927C08F210/16Y10S526/934C08F4/65912C08F210/14
    • Polyolefins may be prepared using a cocatalyst conforming to the formula: AIRz(Xz)nLzm wherein Rz is a linear or branched organic moiety having at least 5 carbons and Xz is a linear or branched organic moiety having at least 5 carbons or a heterocyclic moiety having at least 4 atoms and can be anionic or di-anionic. The aluminum complex may also be in the form of an adduct complex where Lz is a Lewis base and m=1-3. The cocatalyst Rz components are selected such that they do not react with water under polymerization conditions to form a species that is highly soluble in the polymerization diluent. Use of the specified cocatalyst reduces fouling during metallocene-catalyzed runs and “post-metallocene hangover” when the same production equipment is transitioned to non-metallocene catalyst runs using catalysts such as chromium.
    • 聚烯烃可以使用符合下列公式的助催化剂制备:<?in-line-formula description =“In-line formula”end =“lead”?>空气(X < ?????z???????????????????????????????????????? 其中R z是具有至少5个碳原子的直链或支链有机部分,X是具有至少5个碳原子的直链或支链有机部分或具有至少5个碳原子的杂环部分, 至少4个原子,可以是阴离子或二阴离子。 铝络合物也可以是加合物络合物的形式,其中L z是路易斯碱,m = 1-3。 选择助催化剂R z z组分使得它们在聚合条件下不与水反应以形成高度可溶于聚合稀释剂的物质。 使用特定的助催化剂可以减少金属茂催化运行期间的结垢和“后金属茂宿醉”,当相同的生产设备使用催化剂如铬转变为非茂金属催化剂运行时。
    • 9. 发明申请
    • Cocatalysts for reduction of production problems in metallocene-catalyzed polymerizations
    • 用于减少茂金属催化聚合中的生产问题的助催化剂
    • US20060293472A1
    • 2006-12-28
    • US11158454
    • 2005-06-22
    • Steven GrayHenry EnriquezDavid Knoeppel
    • Steven GrayHenry EnriquezDavid Knoeppel
    • C08F4/44
    • C08F10/00C08F4/65916C08F4/65927C08F210/16Y10S526/934C08F4/65912C08F210/14
    • Polyolefins may be prepared using a cocatalyst conforming to the formula: AIRz(Xz)nLzm wherein Rz is a linear or branched organic moiety having at least 5 carbons and Xz is a linear or branched organic moiety having at least 5 carbons or a heterocyclic moiety having at least 4 atoms and can be anionic or di-anionic. The aluminum complex may also be in the form of an adduct complex where Lz is a Lewis base and m=1-3. The cocatalyst Rz components are selected such that they do not react with water under polymerization conditions to form a species that is highly soluble in the polymerization diluent. Use of the specified cocatalyst reduces fouling during metallocene-catalyzed runs and “post-metallocene hangover” when the same production equipment is transitioned to non-metallocene catalyst runs using catalysts such as chromium.
    • 聚烯烃可以使用符合下列公式的助催化剂制备:<?in-line-formula description =“In-line formula”end =“lead”?>空气(X < ?????z???????????????????????????????????????? 其中R z是具有至少5个碳原子的直链或支链有机部分,X是具有至少5个碳原子的直链或支链有机部分或具有至少5个碳原子的杂环部分, 至少4个原子,可以是阴离子或二阴离子。 铝络合物也可以是加合物络合物的形式,其中L z是路易斯碱,m = 1-3。 选择助催化剂R z z组分使得它们在聚合条件下不与水反应以形成高度可溶于聚合稀释剂的物质。 使用特定的助催化剂可以减少金属茂催化运行期间的结垢和“后金属茂宿醉”,当相同的生产设备使用催化剂如铬转变为非茂金属催化剂运行时。