Abe the Wizard

Abel intends to use this time to strengthen his strength, first and foremost in terms of weapons. This battle, if he has a long-range weapon, will allow him to attack the werewolf remotely, or to block his approach remotely, or at least slow him down.

Abel thought a lot about long-range weapons, and Abel, the archer of the world, did research, but he wanted to make a 70-pound composite bow that he had used on Earth.

The advantage of this composite bow is that in 80% of the cases, when you pull the bow full, you just need 14 pounds of pull to keep the bow full (70 x (1-80%) = 14), allowing the user to divert energy away from the bow and focus more on aiming and adjusting their posture.

At 60% less effort than in the case, it takes 28 pounds of pull to keep the bow full, the bow will store more energy, and often the arrow will fire faster.

The two states can choose their own power saving ratio on the bow, adjusting the high or low power saving ratio of the composite bow according to the actual situation.

Now Abel remembers the components of the composite bow, and the dimensions of the components Abel remembers very well, due to their strong mental power.

Composite bows consist of fallen wheels, power wheels, upper and lower bow arms, bow handles, bow seat, bow string slip sleeve, bow string shock absorber, arrow table, handle, main string, collar string, bow piece shock absorber, string arrow arrow table, sight fixture, hair dispenser, shock absorber, peephole, wrist rope, and so on, which form a complete modern composite bow.

Despite the limited level of the world today, the people of the world are much more powerful than humans on Earth. At least Abel never heard of a sword that could split a man in half with a horse, which is even more difficult to imagine if the Marshall knight were only an intermediate knight, and if he were a higher knight.

And now Abel is stronger than most people on Earth, and he's only thirteen years old. Abel now estimates his strength to be about 400 pounds or more, like when he was on Earth, as a fitness coach, he could only pull a 70-pound compound bow, and a stronger compound bow could not.

So while composite bow materials are not found in this world, because the world is more powerful, especially from Abel himself, making composite bows is his own, and can be replaced with more robust materials, without considering weight issues.

Abel draws all components in the same way, sizes them, and considers what materials to use.

With wheels and power wheels Abel considers using bearings for rotational support of both wheels to reduce the coefficient of friction during their movement and to ensure their rotational accuracy, the two wheels are made from 100 practice rough blanks.

Abel wasn't prepared to do it himself because it was too time consuming. His idea was simple. It took a long time to remove two heavy bows. The material was the best. Abel knew that there were several 200-pound heavy bows in the warehouse. They were the strongest bows in the castle, but those bows were rarely used. Because there were not many people who could pull the bow apart, only trainee professionals above the fourth level could pull it apart, but pulling it apart and aiming was the same thing. After pulling it apart, he had to maintain the same force for aiming. Then the user's power would have to reach more than 300 pounds, and even higher, to ensure that there was room for heavy bows.

So those heavy bows were rarely used in the warehouse, and only the weapons keeper in the warehouse did some routine maintenance, and Abel thought that if he took the two heavy bows apart, he would have bow arms and two bow strings.

Both the upper and lower arch arms use the arch arm portion of the heavy bow and are the arch arms of the two heavy bows that adhere together to obtain a stronger arch arm than the heavy bow.

Shock absorbers, shock absorbers, and string arrestors are all made from wood, and handles and arrow tables are made from 100 practice rough blanks.

After Abel planned everything, he began to make composite bows. Abel found two heavy bows from the warehouse and found another archer. Abel himself was not confident in making qualified bow arms, because bow arms were the main source of power for composite bows, and the guarantee of the power he could play when he finally bowed. Abel believed that people looking for a profession would always fail much better than once.

The archer found removed the two heavy bows very painfully, then cut them to the size Abel asked for according to Abel's drawings, then glued the two bow arms together with fishskin glue, and the final product satisfied Abel.

As for shocks, bow absorbers, and string arrestors, Abel found a carpenter, who also met Abel's requirements under Abel's guidance.

Slowly, the accessories for one part are almost ready, and the final bearing can only be made by Abel himself.

Bearings are arguably the most important component of mechanical equipment on the planet and are very difficult to make. Bearings are made up of inner rings, balls, outer rings, with a rolling track in the middle of the inner and outer rings, while the balls roll between the inner and outer rings.

Abel started by making balls, and making balls with current technology was very difficult, because without industrial machines, everything was made in his hands, and Abel, the master blacksmith, had no pressure.

He first made a cursor caliper, then slowly forged a small piece of iron with an iron hammer, and then formed a circle, then continuously measured with a caliper, then forged. Abel didn't think that a standard ball of a circle would take so much time, and made a small ball for half a day. This ball was completely spherical in the measurement of a cursor caliper.

After completing the first balls, Abel made thirty balls of sand with the first balls, using a mould method of clay wet sand type, using clay and an appropriate amount of water as the main binder for sand.

Only 12 balls per bearing, but Abel was prepared to make some extra backups. The most troublesome thing he thought was to turn iron charcoal into iron water. Asked Master Bentham, he knew that the world had a special natural fire additive. He wanted to turn iron into iron water. Just put these natural fire additives in the heating process and he could easily turn iron into iron water.

Abel poured iron water into thirty ball sands, waited for the cooling to take them out, and after some polishing, finally got the perfect ball.

Based on the size of the ball, Abel calculates the size of the inner and outer rings, and the depth of the lane, these fine workouts were successfully accomplished with Abel's mental strength.

The next step is to combine the inner ring and the ball. This has been described in many physics lectures and documentaries. Abel takes some ice out of the ice cellar, places the inner ring in the ice, and then places the outer ring in the furnace. After a while, due to the principle of thermal expansion and cooling, the inner ring, the ball, and the outer ring can be jammed together in sequence. After the temperature is normal, Abel makes the bearings he wants.

Press to secure the bearings and the finished fallen wheels and power wheels, install the molding step by step, and finally Abel makes the world's first composite bow.

Since this composite bow cannot be left empty, it is evening time, and Abel put away the composite bow.

The next morning, after playing with the black wind, Abel found fifty arrows from the warehouse and came to the archery field to test the new bow, because it was so weird that Abel emptied the archery field.

The first arrow came out, stuck on the arrow table, pulled the transmitter hard, Abel never expected the force required by this bow to be so great, the combined force of the two heavy bows definitely exceeded 400 pounds, Abel almost exhausted his full body force before pulling the bow apart, after pulling it completely, he felt that it would save him a little effort, as long as it took less than 100 pounds of power to hold the pulled position.

Abel pointed the center of the sight at a 50-meter arrow target, his hand pressed the trigger on the spreader, the bow string rang gently, the arrow flew out, the distance of 50-meter in the air was completely a straight shot at the center of the target, and then after the center of the target struck a round hole, he continued to fly backwards, hitting the back 30-meter protective wall until he fell to the ground.

The 50-meter archery target is already the furthest archery target in the castle, and Abel has not tested the furthest range of the compound bow, although there are no problems with launching or aiming it.

With a composite bow in his hand, Abel looks at the round hole in the center of the forward archery target, and the arrow that flies in a straight line within at least 50 meters Abel never heard of, this composite bow is already the most technologically advanced bow in the world.