High Speed Sector Delayer
High Speed Sector Delayer
The notion that sector delayers are inherently flawed has persisted for years, often based on misconceptions. The primary concern historically has been the premature activation of the tappet plate. However, our high-speed sector delayers are engineered specifically for builds with high rounds per second (RPS).
These advanced delayer chips extend the tappet plate's engagement time, enhancing both feeding reliability and tappet timing. For optimal installation, we recommend using a compatible cyanoacrylate adhesive. In our experience, we utilize IC-2000 to ensure a secure and durable bond for these chips.
High Speed Sector Delayer
The notion that sector delayers are inherently flawed has persisted for years, often based on misconceptions. The primary concern historically has been the premature activation of the tappet plate. However, our high-speed sector delayers are engineered specifically for builds with high rounds per second (RPS).
These advanced delayer chips extend the tappet plate's engagement time, enhancing both feeding reliability and tappet timing. For optimal installation, we recommend using a compatible cyanoacrylate adhesive. In our experience, we utilize IC-2000 to ensure a secure and durable bond for these chips.
High Speed Sector Delayer
The notion that sector delayers are inherently flawed has persisted for years, often based on misconceptions. The primary concern historically has been the premature activation of the tappet plate. However, our high-speed sector delayers are engineered specifically for builds with high rounds per second (RPS).
These advanced delayer chips extend the tappet plate's engagement time, enhancing both feeding reliability and tappet timing. For optimal installation, we recommend using a compatible cyanoacrylate adhesive. In our experience, we utilize IC-2000 to ensure a secure and durable bond for these chips.