Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:22,620 --> 00:00:26,103 Narrator: Today on "How it's made"... 2 00:00:26,103 --> 00:00:28,000 Custom shoe trees... 3 00:00:32,241 --> 00:00:33,965 ...Clay targets... 4 00:00:38,310 --> 00:00:40,000 ...Squeeze chutes... 5 00:00:43,827 --> 00:00:47,310 ...And composite Boat propellers. 6 00:00:47,310 --> 00:00:50,310 --captions by vitac-- Www.Vitac.Com 7 00:00:50,310 --> 00:00:53,310 Captions paid for by Discovery communications 8 00:00:53,310 --> 00:00:55,931 Shoe trees are a device Placed inside 9 00:00:55,931 --> 00:00:58,862 Leather shoes To preserve their shape. 10 00:00:58,862 --> 00:01:01,793 They also absorb foot Perspiration by wicking away 11 00:01:01,793 --> 00:01:05,896 Leather-damaging moisture From the inside of the shoe. 12 00:01:05,896 --> 00:01:08,275 Shoe trees are A worthwhile investment 13 00:01:08,275 --> 00:01:10,896 Because they extend The life of footwear. 14 00:01:13,103 --> 00:01:16,034 Shoe trees can be purchased At any price. 15 00:01:16,034 --> 00:01:18,586 Some are mass produced And inexpensive, 16 00:01:18,586 --> 00:01:21,689 While others can be Handcrafted and custom ordered 17 00:01:21,689 --> 00:01:25,241 Like these from A small workshop in france. 18 00:01:25,241 --> 00:01:28,551 The customer can select Their preference of tree style 19 00:01:28,551 --> 00:01:31,103 As well as the type Of wood and color. 20 00:01:34,172 --> 00:01:37,482 A craftsman uses a model In the customer's size 21 00:01:37,482 --> 00:01:40,068 And marks its length On a piece of wood. 22 00:01:42,310 --> 00:01:43,793 Using a band saw, 23 00:01:43,793 --> 00:01:47,482 The craftsman cuts the wood To the marked length. 24 00:01:47,482 --> 00:01:52,000 He saws one side flat to be able To lie the piece on its side. 25 00:01:54,827 --> 00:01:57,965 Then he traces the general shape Of the model 26 00:01:57,965 --> 00:02:00,620 And saws along His previously marked lines 27 00:02:00,620 --> 00:02:02,620 To remove excess wood. 28 00:02:06,034 --> 00:02:09,827 Once complete, the block is Roughly shaped like the model. 29 00:02:12,206 --> 00:02:16,000 Next, the block is mounted On one side of a pantograph, 30 00:02:16,000 --> 00:02:18,724 A milling machine that copies The form of one object 31 00:02:18,724 --> 00:02:20,689 To shape another. 32 00:02:22,000 --> 00:02:25,241 He mounts the model on the Other side of the pantograph. 33 00:02:31,068 --> 00:02:34,103 Once the machine is turned on, Both model and block 34 00:02:34,103 --> 00:02:36,068 Begin rotating. 35 00:02:36,068 --> 00:02:40,275 The machine's tools, a tracer And a cutter, are linked. 36 00:02:40,275 --> 00:02:43,689 As the tracer runs across The model, the cutter moves 37 00:02:43,689 --> 00:02:47,620 In identical carving motions Across the block. 38 00:02:47,620 --> 00:02:52,034 By the time the tracer finishes, The block is an exact copy 39 00:02:52,034 --> 00:02:54,448 Except for those extra inches On the ends 40 00:02:54,448 --> 00:02:56,724 For mounting the block To the machine. 41 00:03:00,206 --> 00:03:03,275 The craftsman takes the copy Off the pantograph 42 00:03:03,275 --> 00:03:07,310 And uses the sanding belt To remove any excess wood. 43 00:03:07,310 --> 00:03:10,310 He repeats the process To make a second copy. 44 00:03:12,758 --> 00:03:14,655 The craftsman measures and marks 45 00:03:14,655 --> 00:03:17,793 Where he'll drill a hole On each piece of wood. 46 00:03:21,896 --> 00:03:25,241 For this style, he drills a hole Right through the wood. 47 00:03:30,103 --> 00:03:37,137 Next, he measures the front Of the customer's shoe 48 00:03:37,137 --> 00:03:39,931 And measures the length Of each shoe tree. 49 00:03:39,931 --> 00:03:43,758 He does this to ensure that He has the correct dimensions. 50 00:03:43,758 --> 00:03:45,551 If the shoe tree is longer, 51 00:03:45,551 --> 00:03:49,275 He marks how much wood He needs to remove. 52 00:03:49,275 --> 00:03:52,241 Then he uses a template To create the top opening 53 00:03:52,241 --> 00:03:55,724 And traces the design On to the wood. 54 00:03:55,724 --> 00:03:59,689 With the band saw, the craftsman Cuts along the marked line. 55 00:04:02,862 --> 00:04:05,103 The top opening is now complete. 56 00:04:08,344 --> 00:04:12,931 He drills holes in the bottom of Each shoe tree to hollow it out. 57 00:04:22,137 --> 00:04:24,896 The drill bit is replaced With a different tool, 58 00:04:24,896 --> 00:04:27,758 To carve out the remaining wood In the cavity. 59 00:04:35,448 --> 00:04:38,655 With another tool, he smoothes The the surface of the bottom 60 00:04:38,655 --> 00:04:40,379 And top openings. 61 00:04:49,137 --> 00:04:50,655 With a band saw, 62 00:04:50,655 --> 00:04:54,862 He slices the shoe tree in half To create a hinged style. 63 00:05:00,000 --> 00:05:03,551 On each piece, he makes Markings for the hinge, 64 00:05:03,551 --> 00:05:07,310 Which will connect the two parts And cuts out a notch. 65 00:05:12,206 --> 00:05:14,724 After drilling holes For the hinge screws, 66 00:05:14,724 --> 00:05:19,862 He files the notch smooth 67 00:05:19,862 --> 00:05:22,965 And attaches The polished brass hinge. 68 00:05:31,344 --> 00:05:33,551 To ensure there Are no rough edges, 69 00:05:33,551 --> 00:05:36,068 The craftsman sands The shoe tree. 70 00:05:38,206 --> 00:05:41,241 Depending on the style, The craftsman may apply 71 00:05:41,241 --> 00:05:45,068 A stained wood finish Or a coating of liquid wax. 72 00:05:45,068 --> 00:05:47,655 Finally, the shoes are ready To be shipped back 73 00:05:47,655 --> 00:05:52,068 To the customer with the custom Shoe trees rooted firmly inside. 74 00:06:03,793 --> 00:06:06,724 Narrator: clay targets Are made to be destroyed 75 00:06:06,724 --> 00:06:09,931 The very first time They're used. 76 00:06:09,931 --> 00:06:12,551 Manufactured in multiple colors, 77 00:06:12,551 --> 00:06:16,413 These inverted saucers are used As practice targets 78 00:06:16,413 --> 00:06:21,310 And can be launched by hand Or through automated machines. 79 00:06:23,689 --> 00:06:26,137 Also referred to As clay pigeons, 80 00:06:26,137 --> 00:06:29,241 These targets are not Actually made of clay. 81 00:06:29,241 --> 00:06:30,758 They're made with pitch, 82 00:06:30,758 --> 00:06:33,827 A ceramic-type material, Or resin. 83 00:06:33,827 --> 00:06:37,068 Since the 1920s, This french company has been 84 00:06:37,068 --> 00:06:40,103 Producing clay saucers for Both target practice 85 00:06:40,103 --> 00:06:43,758 And competitions, Including the olympics. 86 00:06:43,758 --> 00:06:45,862 The founder invented The first automated 87 00:06:45,862 --> 00:06:49,655 Target molding machine in 1947. 88 00:06:49,655 --> 00:06:52,482 Pitch targets are made From petroleum pitch, 89 00:06:52,482 --> 00:06:55,034 A substance derived From crude oil, 90 00:06:55,034 --> 00:06:59,068 And calcium carbonate, Commonly known as talc. 91 00:06:59,068 --> 00:07:02,275 Talc is the filler While petroleum pitch 92 00:07:02,275 --> 00:07:03,931 Is the binding agent, 93 00:07:03,931 --> 00:07:07,620 Which solidifies into A hard, brittle material. 94 00:07:07,620 --> 00:07:09,310 The talc arrives At the factory 95 00:07:09,310 --> 00:07:13,137 Heated at 176 degrees Fahrenheit. 96 00:07:13,137 --> 00:07:16,137 A technician transfers the talc From the truck 97 00:07:16,137 --> 00:07:19,206 To a heated storage silo. 98 00:07:19,206 --> 00:07:21,931 A screw conveyor moves the talc From the silo 99 00:07:21,931 --> 00:07:25,241 To the blender tank, Mixing it with the pitch. 100 00:07:28,551 --> 00:07:30,965 The petroleum pitch Arrives to the factory 101 00:07:30,965 --> 00:07:33,827 Heated to 392 degrees. 102 00:07:33,827 --> 00:07:37,068 The pitch is transferred To a heated storage silo 103 00:07:37,068 --> 00:07:40,724 And pumped into a blender. 104 00:07:40,724 --> 00:07:44,620 Every 10 seconds, 22 pounds of petroleum pitch 105 00:07:44,620 --> 00:07:50,724 And 64 pounds of talc Are released into the blender. 106 00:07:50,724 --> 00:07:55,000 The materials cool as soon As they leave the heated silos. 107 00:07:55,000 --> 00:08:01,103 A gas boiler reheats the Ingredients in 509-degree oil. 108 00:08:01,103 --> 00:08:04,310 The hot oil circulates in pipes Around the blender, 109 00:08:04,310 --> 00:08:08,413 Heating the pitch talc mixture To about 390 degrees. 110 00:08:08,413 --> 00:08:12,344 This process changes The consistency to a paste. 111 00:08:12,344 --> 00:08:14,379 The paste flows from the blender 112 00:08:14,379 --> 00:08:16,896 To the automatic Molding machine. 113 00:08:16,896 --> 00:08:19,896 This valve cuts the flow At regular intervals 114 00:08:19,896 --> 00:08:24,758 To time the injections Into the target-shaped molds. 115 00:08:24,758 --> 00:08:28,413 The machine compresses the paste While cooling it with water 116 00:08:28,413 --> 00:08:30,344 So that it solidifies. 117 00:08:32,793 --> 00:08:35,379 A transfer distance moves The targets on to 118 00:08:35,379 --> 00:08:37,827 A conveyer belt one at a time. 119 00:08:37,827 --> 00:08:40,103 As they move to the next Conveyer belt, 120 00:08:40,103 --> 00:08:44,137 The molds are flipped Right-side up. 121 00:08:44,137 --> 00:08:46,379 Even though the molds Are still hot, 122 00:08:46,379 --> 00:08:48,724 They've remained soft And pliable. 123 00:08:51,379 --> 00:08:54,310 As the targets continue To cool and harden, 124 00:08:54,310 --> 00:08:57,517 A separating device lines Them up for the conveyer belts 125 00:08:57,517 --> 00:08:59,620 That go to the paint chambers. 126 00:09:03,448 --> 00:09:06,413 The paint is made primarily Of carbonate 127 00:09:06,413 --> 00:09:08,896 And biodegradable Powdered pigment. 128 00:09:11,068 --> 00:09:14,206 A technician pours a Pre-measured amount of water... 129 00:09:17,068 --> 00:09:19,482 ...And a bag of pigment Into a mixer. 130 00:09:22,379 --> 00:09:25,379 The mixer combines The ingredients together. 131 00:09:29,034 --> 00:09:31,724 Once the water and pigment Have blended together, 132 00:09:31,724 --> 00:09:34,896 A pre-measured amount of Carbonate is added to the mixer, 133 00:09:34,896 --> 00:09:37,827 Along with a binding And thickening agent. 134 00:09:37,827 --> 00:09:42,275 After additional blending, The paint is ready. 135 00:09:42,275 --> 00:09:44,034 The targets move from the Conveyer belt 136 00:09:44,034 --> 00:09:45,724 Onto spinning holders, 137 00:09:45,724 --> 00:09:48,344 Which carry the targets Through the paint chamber. 138 00:09:52,103 --> 00:09:56,000 Inside, a sprayer coats The spinning targets with paint. 139 00:09:58,793 --> 00:10:02,103 The targets exit the chamber Wet and cooled. 140 00:10:06,310 --> 00:10:08,655 Another separator divides The targets on to 141 00:10:08,655 --> 00:10:11,758 Two conveyer belts, Which carry them through 142 00:10:11,758 --> 00:10:15,448 A hot-air tunnel for 30 seconds To dry the paint. 143 00:10:19,310 --> 00:10:22,413 The conveyer belt feeds The targets to a machine, 144 00:10:22,413 --> 00:10:24,620 Which piles them in stacks. 145 00:10:27,620 --> 00:10:32,655 Clay pigeons can be Manufactured in several sizes. 146 00:10:32,655 --> 00:10:35,586 Olympic regulation size Is the largest, 147 00:10:35,586 --> 00:10:38,034 Containing a width Of four inches. 148 00:10:41,000 --> 00:10:44,586 A smaller target is used For training purposes 149 00:10:44,586 --> 00:10:49,206 And contains a width Under four inches. 150 00:10:49,206 --> 00:10:51,206 Regardless of their size, 151 00:10:51,206 --> 00:10:54,758 All targets are engineered To remain stable in flight 152 00:10:54,758 --> 00:10:57,413 While following The intended trajectory. 153 00:10:57,413 --> 00:11:00,172 And, finally, shatter when shot. 154 00:11:10,724 --> 00:11:14,103 Narrator: the average cow weighs Up to 2,000 pounds. 155 00:11:14,103 --> 00:11:17,068 During medical procedures, Due to its size, 156 00:11:17,068 --> 00:11:18,793 A device called The squeeze chute 157 00:11:18,793 --> 00:11:21,413 Is used to hold a cow steady. 158 00:11:21,413 --> 00:11:24,482 The walls of this stall Immobilize the animal, 159 00:11:24,482 --> 00:11:28,103 Allowing a veterinarian access To administer treatment. 160 00:11:31,862 --> 00:11:34,931 A squeeze chute holds an animal Still for medical 161 00:11:34,931 --> 00:11:38,517 And other procedures So that no one gets hurt. 162 00:11:38,517 --> 00:11:40,689 The key to the design Is a front gate 163 00:11:40,689 --> 00:11:43,206 That closes Around the animal's head 164 00:11:43,206 --> 00:11:45,724 And a cage-like structure With a squeeze wall 165 00:11:45,724 --> 00:11:48,896 That contains the rest Of the body. 166 00:11:48,896 --> 00:11:52,137 Production starts with A big coil of steel. 167 00:11:52,137 --> 00:11:55,172 As it unwinds, rollers Straighten the steel 168 00:11:55,172 --> 00:11:57,896 And the blade Cuts it into sheets. 169 00:11:57,896 --> 00:12:00,827 The sheets move To a laser-cutting station. 170 00:12:00,827 --> 00:12:04,172 The laser cuts out the same Part multiple times, 171 00:12:04,172 --> 00:12:06,965 Producing many parts From one sheet. 172 00:12:06,965 --> 00:12:08,724 The part that's produced 173 00:12:08,724 --> 00:12:12,896 Is a component of The side exit gate. 174 00:12:12,896 --> 00:12:15,620 The steel is formed into tubing. 175 00:12:15,620 --> 00:12:19,172 An operator loads the tubing Into a bending machine. 176 00:12:19,172 --> 00:12:22,034 The machine wraps the tubing Around dies, 177 00:12:22,034 --> 00:12:25,137 Shaping it into One of the chute's access hoops. 178 00:12:25,137 --> 00:12:28,241 The machine cuts the ends Of the hoop and ejects it. 179 00:12:30,586 --> 00:12:34,034 An automated system Transfers the hoops to a rack. 180 00:12:36,689 --> 00:12:38,482 A technician arranges the hoops 181 00:12:38,482 --> 00:12:41,931 On the upper half of one Of the chute's side frames. 182 00:12:41,931 --> 00:12:46,482 The jig serves as a template For the placement of the hoops. 183 00:12:46,482 --> 00:12:50,827 The bottom of the hoops are Welded to hinges on the frame. 184 00:12:50,827 --> 00:12:54,172 These clips are for opening Or locking the hoops. 185 00:12:56,620 --> 00:12:59,862 He welds one to the top Of each access hoop. 186 00:13:02,689 --> 00:13:04,793 The operator can reach Through the hoops 187 00:13:04,793 --> 00:13:07,517 To gain access to the animal. 188 00:13:07,517 --> 00:13:11,827 The hoops can also be opened If needed. 189 00:13:11,827 --> 00:13:13,896 Another technician Assembles a panel 190 00:13:13,896 --> 00:13:17,241 To the bottom Of the second side frame. 191 00:13:17,241 --> 00:13:20,827 He welds clips to the top So the panel can be opened 192 00:13:20,827 --> 00:13:23,517 For access To the lower part of the animal. 193 00:13:26,551 --> 00:13:29,965 He hinges the panel To the base of the frame. 194 00:13:29,965 --> 00:13:33,689 Next, an operator uses a machine To bend steel tubing 195 00:13:33,689 --> 00:13:36,551 Against a circular form. 196 00:13:36,551 --> 00:13:38,137 After the first bend, 197 00:13:38,137 --> 00:13:41,241 The operator repositions The tubing so the machine 198 00:13:41,241 --> 00:13:46,103 Can make the second bend In the specified location. 199 00:13:46,103 --> 00:13:48,896 The tailgate frame Has taken shape. 200 00:13:48,896 --> 00:13:51,689 With the frame and a jig, A technician installs 201 00:13:51,689 --> 00:13:54,724 Vertical bars And diagonal linkages 202 00:13:54,724 --> 00:13:57,620 And welds a metal shield To the lower half. 203 00:13:57,620 --> 00:14:01,206 This part keeps the cow's hooves Safely inside. 204 00:14:01,206 --> 00:14:03,068 Meanwhile, holes Have been drilled 205 00:14:03,068 --> 00:14:05,482 In both ends of the chute floor. 206 00:14:05,482 --> 00:14:07,827 They'll be used to move One wall inward 207 00:14:07,827 --> 00:14:10,586 To tightly contain the animal. 208 00:14:10,586 --> 00:14:13,724 Then the chute's skeleton Is constructed. 209 00:14:13,724 --> 00:14:15,103 Using a hoist, 210 00:14:15,103 --> 00:14:20,068 A technician transfers The tailgate to the structure. 211 00:14:20,068 --> 00:14:22,000 The technician guides the top 212 00:14:22,000 --> 00:14:27,586 On to the squeeze chute Framework 213 00:14:27,586 --> 00:14:29,827 And welds The structure together. 214 00:14:32,965 --> 00:14:36,241 Next, he attaches the squeeze Wall to the structure. 215 00:14:40,137 --> 00:14:43,413 He opens the tailgate to test The clearance and assembles 216 00:14:43,413 --> 00:14:48,413 A steel panel to the lower Half of the squeeze wall. 217 00:14:48,413 --> 00:14:51,034 He mounts the other side panel With the exit gate 218 00:14:51,034 --> 00:14:52,758 To the structure. 219 00:14:55,689 --> 00:14:58,862 He places hinges into The tailgate frame and welds 220 00:14:58,862 --> 00:15:02,482 The panel To the frame at the top. 221 00:15:02,482 --> 00:15:05,827 To verify the side gate Is operating smoothly, 222 00:15:05,827 --> 00:15:08,827 The technician pulls the lever. 223 00:15:08,827 --> 00:15:12,000 Then he opens the tail gate To check its clearance. 224 00:15:14,827 --> 00:15:18,413 He moves the squeeze side To various settings, 225 00:15:18,413 --> 00:15:22,172 Making adjustments if needed To ensure that the squeeze wall 226 00:15:22,172 --> 00:15:26,931 Is properly aligned At each notch. 227 00:15:26,931 --> 00:15:30,275 Next, the entire structure Is dipped in a paint vat, 228 00:15:30,275 --> 00:15:33,896 Providing the structure With even coverage. 229 00:15:33,896 --> 00:15:36,310 The head gate has been Especially contoured 230 00:15:36,310 --> 00:15:40,103 To hold the animal's Head in position. 231 00:15:40,103 --> 00:15:42,034 Then a worker slides Rubber grippers 232 00:15:42,034 --> 00:15:45,586 On to the operating handles. 233 00:15:45,586 --> 00:15:48,689 This squeeze chute is now ready To assist veterinarians 234 00:15:48,689 --> 00:15:53,000 And ranchers with a safe way To lock an animal into position. 235 00:16:06,103 --> 00:16:08,206 Narrator: Until nearly 30 years ago, 236 00:16:08,206 --> 00:16:11,551 Boat propellers were normally Made of steel or aluminum. 237 00:16:11,551 --> 00:16:14,034 Today, developers have since Tested the waters 238 00:16:14,034 --> 00:16:15,896 With composite propellers. 239 00:16:15,896 --> 00:16:18,310 Made from nylon resin And fiberglass, 240 00:16:18,310 --> 00:16:21,310 Composite propellers are Light weight and don't corrode. 241 00:16:21,310 --> 00:16:25,103 And, in certain models, broken Blades can even be replaced. 242 00:16:26,827 --> 00:16:29,206 Composite propellers Provide boaters 243 00:16:29,206 --> 00:16:31,655 With another way To move on the water. 244 00:16:31,655 --> 00:16:35,344 These props are the latest way To convert rotational motion 245 00:16:35,344 --> 00:16:38,206 Into thrust. 246 00:16:38,206 --> 00:16:41,000 Production starts with A computer design. 247 00:16:41,000 --> 00:16:43,965 This one is for A houseboat propeller. 248 00:16:43,965 --> 00:16:45,758 The design will drive The machinery 249 00:16:45,758 --> 00:16:47,862 That manufactures the molds. 250 00:16:50,068 --> 00:16:53,137 Pellets that are Half fiberglass, half resin 251 00:16:53,137 --> 00:16:56,103 Are placed in a dryer To remove moisture. 252 00:16:59,931 --> 00:17:04,655 An operator takes a sample Of the dried pellets. 253 00:17:04,655 --> 00:17:06,862 First, he weighs the pellets. 254 00:17:06,862 --> 00:17:10,758 Then he heats them to evaporate Any additional moisture. 255 00:17:10,758 --> 00:17:13,241 The change in weight indicates How much moisture 256 00:17:13,241 --> 00:17:14,793 Has been removed. 257 00:17:16,931 --> 00:17:19,620 These two-part metal molds Form the pellets 258 00:17:19,620 --> 00:17:21,413 Into propeller blades. 259 00:17:23,413 --> 00:17:28,068 This process takes just a minute And a half to complete. 260 00:17:28,068 --> 00:17:31,793 A technician starts a molding Machine that melts the pellets. 261 00:17:31,793 --> 00:17:35,896 A large feed screw forces the Molten material into the mold. 262 00:17:35,896 --> 00:17:38,275 The composite material Solidifies, 263 00:17:38,275 --> 00:17:42,551 And the operator removes the Newly formed propeller blade. 264 00:17:42,551 --> 00:17:45,448 The process leaves a piece Of unwanted material 265 00:17:45,448 --> 00:17:47,827 Known as the sprue. 266 00:17:47,827 --> 00:17:49,758 The sprue is composite material 267 00:17:49,758 --> 00:17:52,793 That hardened as it flowed Into the mold. 268 00:17:52,793 --> 00:17:55,172 Once cut, it falls into a bin 269 00:17:55,172 --> 00:17:58,241 To be recycled into The next composite propeller. 270 00:18:00,620 --> 00:18:05,379 The trim propeller is now A functional part. 271 00:18:05,379 --> 00:18:09,448 Next, composite material is Molded around an aluminum core 272 00:18:09,448 --> 00:18:11,103 To create the hub. 273 00:18:14,000 --> 00:18:18,241 A band saw cuts an extruded bar Of aluminum to size. 274 00:18:18,241 --> 00:18:20,655 Each piece will serve As one core. 275 00:18:23,413 --> 00:18:26,413 Using a tool with A sharp-curved blade, 276 00:18:26,413 --> 00:18:30,655 The technician trims the rough Bits left behind by the saw. 277 00:18:30,655 --> 00:18:33,034 These rough bits are known As burrs, 278 00:18:33,034 --> 00:18:36,000 So this process Is known as deburring. 279 00:18:39,620 --> 00:18:41,482 Once the edges are smooth, 280 00:18:41,482 --> 00:18:45,000 The technician attaches clips To the three wings. 281 00:18:45,000 --> 00:18:49,896 These clips will be used to Center the core in the mold. 282 00:18:49,896 --> 00:18:52,862 The technician slides the core Into the mold. 283 00:18:52,862 --> 00:18:55,655 The clips hold it In a precise position. 284 00:18:55,655 --> 00:18:57,758 Then the machine is activated. 285 00:18:57,758 --> 00:19:01,103 The machine allows molten Fiberglass and resin material 286 00:19:01,103 --> 00:19:05,655 To flow into the mold cavity and Encapsulate the aluminum core. 287 00:19:05,655 --> 00:19:07,137 It also forms channels 288 00:19:07,137 --> 00:19:09,793 For the insertion Of the propeller blades. 289 00:19:14,724 --> 00:19:16,379 A computerized milling machine 290 00:19:16,379 --> 00:19:18,965 Moves the hub into position For trimming. 291 00:19:21,896 --> 00:19:24,896 A drill cuts into the center To widen the hole. 292 00:19:29,896 --> 00:19:32,172 The next operation Called broaching 293 00:19:32,172 --> 00:19:34,310 Will carve teeth into the hole, 294 00:19:34,310 --> 00:19:37,689 Which will help connect The hub to the motor shaft. 295 00:19:37,689 --> 00:19:40,896 A machine pulls a spiraling tool Called a broach 296 00:19:40,896 --> 00:19:44,482 Through the center hole Of the hub. 297 00:19:44,482 --> 00:19:47,137 The tool carves through The composite layer 298 00:19:47,137 --> 00:19:51,068 And into the aluminum core To cut the teeth. 299 00:19:51,068 --> 00:19:53,482 Here's a close-up look At those teeth. 300 00:19:56,413 --> 00:20:00,586 Now it's time for all the parts To come together. 301 00:20:00,586 --> 00:20:04,931 An assembler slides the blades Into grooves in the hub. 302 00:20:04,931 --> 00:20:07,655 The grooves help hold The blades in place. 303 00:20:09,827 --> 00:20:11,724 Using a hammer, the assembler 304 00:20:11,724 --> 00:20:15,827 Makes sure the blades Are connected accordingly. 305 00:20:15,827 --> 00:20:19,000 Finally, a part called A rear cap is attached. 306 00:20:21,413 --> 00:20:24,655 For an inside look, The propeller has been cut open. 307 00:20:24,655 --> 00:20:27,379 The cut-out reveals how The composite material 308 00:20:27,379 --> 00:20:31,379 Has become one With the aluminum core. 309 00:20:31,379 --> 00:20:33,000 And now a test. 310 00:20:33,000 --> 00:20:35,862 The technician attaches A chain to a blade. 311 00:20:35,862 --> 00:20:39,827 Using a hydraulic ram, He applies pressure. 312 00:20:39,827 --> 00:20:41,862 He measures the breaking point. 313 00:20:41,862 --> 00:20:45,344 At 1 1/2 tons of force, It's significant. 314 00:20:52,448 --> 00:20:54,448 This composite boat propeller 315 00:20:54,448 --> 00:20:57,482 Has taken about 20 minutes to produce. 316 00:20:57,482 --> 00:20:59,379 Once attached To the motor shaft, 317 00:20:59,379 --> 00:21:01,827 It should last for years. 318 00:21:01,827 --> 00:21:04,620 Now this boat is ready To provide boaters 319 00:21:04,620 --> 00:21:07,448 With a ton of fun While out on the water. 26176