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De Cristofaro
John L. De Cristofaro, Warren Township, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20080223533 | Armor system for field protection and a method for making same - The present techniques include a field armor system comprising hollow structures designed to be filled with field materials, such as soil, sand, rocks, or clay. At least one face of the structures is made from a projectile resistant plastic composite. The projectile resistant plastic composite panel may be made from a ceramic plastic composite, a fiber plastic composite, or interspersed layers of both. In one embodiment, the hollow structure comprises four connected panels that may be collapsed when empty. In another embodiment, the hollow structure may comprise hollow bricks designed to interlock to form a protective wall. | 09-18-2008 |
Nicola De Cristofaro, Remscheid DE
| Patent application number | Description | Published |
|---|---|---|
| 20110176952 | BINDER FOR THE PRODUCTION OF SINTERED MOLDED ARTICLES - The aim of the invention is to devise a binder that is an alternative to prior art binders for producing sintered molded articles. Said aim is achieved by a binder comprising a first substance that has a first melting point and a first vapor pressure at 80° C. and a second substance that has a second melting point and a second vapor pressure at 80° C., the maximum melting point of the first and second substance amounting to about 150° C., and the minimum vapor pressure of the first and second substance amounting to about 5 torr (667 Pa) at 80° C. | 07-21-2011 |
Sarah De Cristofaro, Brindisi IT
| Patent application number | Description | Published |
|---|---|---|
| 20110210627 | ELECTROMAGNETIC STEP-BY-STEP WOBBLE-TYPE MICROMOTOR - An electromagnetic step-by-step wobbling micromotor comprises an inner component and an annular component being external to the inner one. The outer component may be a stator and the inner component a rotor, or vice versa. The inner component has three or more poles with a winding on each pole, and an external surface facing an internal surface of the outer component. During the operation of the micromotor each winding is powered. The external and internal surfaces have toothed surfaces. Each tooth has a peak radius which is different from the valley radius. | 09-01-2011 |