American Dollar to Canadian Dollar = 0.734658; American Dollar to Chinese Yuan = 0.137626; American Dollar to Euro = 1.082254; American Dollar to Japanese Yen = 0.006217; American Dollar to Mexican Peso = 0.055351.

“For the first time since March and April truck tonnage contracted for two consecutive months,” said ATA Chief Economist Bob Costello. “Tonnage fell 1.8% in November, bringing the two-month total decrease to 2.9%, pushing tonnage to its lowest level since January 2024. Sluggishness in factory output continues to weigh on freight volumes, but another drag on the index has been fleet growth at private carriers, which is holding back how much freight is flowing to for-hire carriers.” In December, the ATA advanced seasonally adjusted For-Hire Truck Tonnage Index equaled 111.3 compared with 112.6 in November. The index, which is based on 2015 as 100, was down 3.2% from the same month last year. The not seasonally adjusted index, which calculates raw changes in tonnage hauled, equaled 108.8 in December, 0.9% below November. The seasonally adjusted decrease follows a sequential 1.8% drop in November, which was revised up from the December 24 press release.

In our modern world, eliminating plastics is inconceivable. Unfortunately, they do have disadvantages, including the formation of CO2 in both production and combustion, depletion of fossil feedstocks, and growth of landfills. In the journal Angewandte Chemie, Russian researchers introduce a new way forward, a polymer made entirely from biomass that can easily and inexpensively be used in 3D printing. Objects produced in this way are of high quality, easily recyclable, and highly solvent-resistant. Conventional “subtractive” processes involve cutting, sawing, turning, or milling, which results in a great deal of wasted material. In contrast, 3D printing processes are, in principle, waste-free, because they are “additive”: three-dimensional objects are produced in a layer-by-layer application of material. The most common technique is called fused deposition modeling (FDM). In this process, the raw material is squirted through a hot nozzle onto a mobile base and thereby liquefied (extrusion). The printer head produces the programmed form like in a conventional two-dimensional printing process, releasing small amounts of the polymer instead of ink. This is repeated for layer after layer until the desired three-dimensional object is complete. Yet, the polymers used until now have a number of disadvantages that limit their use. Some of the polymers are attacked by organic solvents. Those that withstand the solvents, on the other hand, adhere poorly and shrink on heating, allowing their layers to come apart and causing errors in the printing process. Click Read More below for additional information.