Add to ORKGShock recovery experiments which were carried out in the 9 to 12 GPa range on 1.4 distension Mo and appear adequate to compact to full density ( 45 (SIGMA)m) powders were examined. The stress levels, however, are below those calculated to be from 100 to approx. 22 GPa which a frictional heating model predicts are required to consolidate approx. 10 to 50 (SIGMA)m particles. The model predicts that powders that have a distension of m=1.6 shock pressures of 14 to 72 GPa are required to consolidate Mo powders in the 50 to 10 (SIGMA)m range
Rapidly solidified AISI 9310 steel powders were consolidated by shock waves produced from the impact...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
This dissertation focuses on developing a predictive method for determining the dynamic densificati...
Incident shocks varying from 9 to 12 GPa and 2 µs duration, impinging on porous pure Mo (100 µm) po...
Incident shocks varying from 9 to 12 GPa and 2 µs duration, impinging on porous pure Mo (100 µm) po...
A recently proposed model of shock consolidation of powders quantitatively predicts regimes of input...
A recently proposed model of shock consolidation of powders quantitatively predicts regimes of input...
The dynamic compaction of metal powders is of great interest to the metallurgical and military commu...
In order to examine the feasibility of carrying out dynamic compression experiments on a space stati...
The shock compaction behavior of a tungsten carbide powder was investigated using a new experimental...
A recently advanced model for the shock consolidation of powders predicts, for a powder of given dis...
A recently advanced model for the shock consolidation of powders predicts, for a powder of given dis...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
Rapidly solidified AISI 9310 steel powders were consolidated by shock waves produced from the impact...
Rapidly solidified AISI 9310 steel powders were consolidated by shock waves produced from the impact...
Rapidly solidified AISI 9310 steel powders were consolidated by shock waves produced from the impact...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
This dissertation focuses on developing a predictive method for determining the dynamic densificati...
Incident shocks varying from 9 to 12 GPa and 2 µs duration, impinging on porous pure Mo (100 µm) po...
Incident shocks varying from 9 to 12 GPa and 2 µs duration, impinging on porous pure Mo (100 µm) po...
A recently proposed model of shock consolidation of powders quantitatively predicts regimes of input...
A recently proposed model of shock consolidation of powders quantitatively predicts regimes of input...
The dynamic compaction of metal powders is of great interest to the metallurgical and military commu...
In order to examine the feasibility of carrying out dynamic compression experiments on a space stati...
The shock compaction behavior of a tungsten carbide powder was investigated using a new experimental...
A recently advanced model for the shock consolidation of powders predicts, for a powder of given dis...
A recently advanced model for the shock consolidation of powders predicts, for a powder of given dis...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
Rapidly solidified AISI 9310 steel powders were consolidated by shock waves produced from the impact...
Rapidly solidified AISI 9310 steel powders were consolidated by shock waves produced from the impact...
Rapidly solidified AISI 9310 steel powders were consolidated by shock waves produced from the impact...
A model for the shock consolidation of powders is developed which predicts, for a given powder densi...
This dissertation focuses on developing a predictive method for determining the dynamic densificati...