Abstract

Static and dynamic behaviors of the human spine in response to internal and external loads may be useful in future building design. The new structure was made by simplification in structure parts more than the previous validated material simplifications of Finite Element (FE) of one motion segment of the human lumbar spine (L3/L4). The study showed the anatomical and mechanical properties of this model were adapted to validated previously models by having fewer materials and stress amount. This validated simplified structure by having the natural process may be useful to achieve adaptable, sustainable, and sensible future structures for several disciplines.

• Highlights

• Simplification of human lumbar spine structure more than material simplifications.

• Simplified lumbar structure for prosthesis, implants, building joints & structures.

• Having fewer materials, less stress & simple form by simplifying lumbar structure.

• Simplified lumbar structure by being resistant against internal & external response.

• Sustainable, sensible & adaptable structure by inspiration of the natural process.

摘要

人体脊柱响应内部和外部载荷的静态和动态行为可能在未来的建筑设计中很有用。新结构是通过结构部件的简化比先前验证的人体腰椎一个运动节段（L3/L4）的有限元（FE）的材料简化而制成的。该研究表明，该模型的解剖学和机械性能通过使用更少的材料和应力量来适应先前验证的模型。这种通过自然过程验证的简化结构可能有助于为多个学科实现适应性、可持续和合理的未来结构。

• 强调

• 简化人体腰椎结构比简化材料更重要。

• 用于假肢、植入物、建筑关节和结构的简化腰椎结构。

• 通过简化腰部结构，减少材料、减少压力和简单的形式。

• 通过抵抗内部和外部反应来简化腰部结构。

• 受自然过程启发的可持续、明智和适应性强的结构。